/*
 * SystemJS v0.20.19 Dev
 */
(function () {
    'use strict';
  
    /*
     * Environment
     */
    var isBrowser = typeof window !== 'undefined' && typeof document !== 'undefined';
    var isNode = typeof process !== 'undefined' && process.versions && process.versions.node;
    var isWindows = typeof process !== 'undefined' && typeof process.platform === 'string' && process.platform.match(/^win/);
  
    var envGlobal = typeof self !== 'undefined' ? self : global;
    /*
     * Simple Symbol() shim
     */
    var hasSymbol = typeof Symbol !== 'undefined';
  
    function createSymbol(name) {
      return hasSymbol ? Symbol() : '@@' + name;
    }
  
  
  
  
  
    /*
     * Environment baseURI
     */
    var baseURI;
    var PATH_PREFIX = window.APP_CONFIGS.PATH_PREFIX;
    var aliasBaseUrl = (function () {
      var scriptMainSentryEle = document.getElementById("script-main-sentry");
      var jsPath = scriptMainSentryEle.src;
      var _baseURL = jsPath.substring(0, jsPath.lastIndexOf(PATH_PREFIX + "/js/main.sentry.js")) || "/";
      return _baseURL;
    })();
  
   
    // environent baseURI detection
    if (typeof document != 'undefined' && document.getElementsByTagName) {
      baseURI = document.baseURI;
  
      if (!baseURI) {
        var bases = document.getElementsByTagName('base');
        baseURI = bases[0] && bases[0].href || window.location.href;
      }
    } else if (typeof location != 'undefined') {
      baseURI = location.href;
    }
  
    // sanitize out the hash and querystring
    if (baseURI) {
      baseURI = baseURI.split('#')[0].split('?')[0];
      var slashIndex = baseURI.lastIndexOf('/');
      if (slashIndex !== -1)
        baseURI = baseURI.substr(0, slashIndex + 1);
    } else if (typeof process !== 'undefined' && process.cwd) {
      baseURI = 'file://' + (isWindows ? '/' : '') + process.cwd();
      if (isWindows)
        baseURI = baseURI.replace(/\\/g, '/');
    } else {
      throw new TypeError('No environment baseURI');
    }
  
    // ensure baseURI has trailing "/"
    if (baseURI[baseURI.length - 1] !== '/')
      baseURI += '/';
  
    /*
     * LoaderError with chaining for loader stacks
     */
    var errArgs = new Error(0, '_').fileName == '_';
  
    function LoaderError__Check_error_message_for_loader_stack(childErr, newMessage) {
      // Convert file:/// URLs to paths in Node
      if (!isBrowser)
        newMessage = newMessage.replace(isWindows ? /file:\/\/\//g : /file:\/\//g, '');
  
      var message = (childErr.message || childErr) + '\n  ' + newMessage;
  
      var err;
      if (errArgs && childErr.fileName)
        err = new Error(message, childErr.fileName, childErr.lineNumber);
      else
        err = new Error(message);
  
  
      var stack = childErr.originalErr ? childErr.originalErr.stack : childErr.stack;
  
      if (isNode)
        // node doesn't show the message otherwise
        err.stack = message + '\n  ' + stack;
      else
        err.stack = stack;
  
      err.originalErr = childErr.originalErr || childErr;
  
      return err;
    }
  
    /*
     * Optimized URL normalization assuming a syntax-valid URL parent
     */
    function throwResolveError(relUrl, parentUrl) {
      throw new RangeError('Unable to resolve "' + relUrl + '" to ' + parentUrl);
    }
  
    function resolveIfNotPlain(relUrl, parentUrl) {
      relUrl = relUrl.trim();
      var parentProtocol = parentUrl && parentUrl.substr(0, parentUrl.indexOf(':') + 1);
  
      var firstChar = relUrl[0];
      var secondChar = relUrl[1];
  
      var PATH_PREFIX = window.APP_CONFIGS.PATH_PREFIX;
      var regEx = new RegExp("^@@/" + PATH_PREFIX, "g");
      if (regEx.test(relUrl)) {
        var _url = relUrl.substring(3);
        return aliasBaseUrl + _url;
      }
        // protocol-relative
      if (firstChar === '/' && secondChar === '/') {
        if (!parentProtocol)
          throwResolveError(relUrl, parentUrl);
        return parentProtocol + relUrl;
      }
      // relative-url
      else if (firstChar === '.' && (secondChar === '/' || secondChar === '.' && (relUrl[2] === '/' || relUrl.length === 2 && (relUrl += '/')) ||
          relUrl.length === 1 && (relUrl += '/')) ||
        firstChar === '/') {
        var parentIsPlain = !parentProtocol || parentUrl[parentProtocol.length] !== '/';
  
        // read pathname from parent if a URL
        // pathname taken to be part after leading "/"
        var pathname;
        if (parentIsPlain) {
          // resolving to a plain parent -> skip standard URL prefix, and treat entire parent as pathname
          if (parentUrl === undefined)
            throwResolveError(relUrl, parentUrl);
          pathname = parentUrl;
        } else if (parentUrl[parentProtocol.length + 1] === '/') {
          // resolving to a :// so we need to read out the auth and host
          if (parentProtocol !== 'file:') {
            pathname = parentUrl.substr(parentProtocol.length + 2);
            pathname = pathname.substr(pathname.indexOf('/') + 1);
          } else {
            pathname = parentUrl.substr(8);
          }
        } else {
          // resolving to :/ so pathname is the /... part
          pathname = parentUrl.substr(parentProtocol.length + 1);
        }
  
        if (firstChar === '/') {
          if (parentIsPlain)
            throwResolveError(relUrl, parentUrl);
          else
            return parentUrl.substr(0, parentUrl.length - pathname.length - 1) + relUrl;
        }
  
        // join together and split for removal of .. and . segments
        // looping the string instead of anything fancy for perf reasons
        // '../../../../../z' resolved to 'x/y' is just 'z' regardless of parentIsPlain
        var segmented = pathname.substr(0, pathname.lastIndexOf('/') + 1) + relUrl;
  
        var output = [];
        var segmentIndex = -1;
  
        for (var i = 0; i < segmented.length; i++) {
          // busy reading a segment - only terminate on '/'
          if (segmentIndex !== -1) {
            if (segmented[i] === '/') {
              output.push(segmented.substring(segmentIndex, i + 1));
              segmentIndex = -1;
            }
            continue;
          }
  
          // new segment - check if it is relative
          if (segmented[i] === '.') {
            // ../ segment
            if (segmented[i + 1] === '.' && (segmented[i + 2] === '/' || i + 2 === segmented.length)) {
              output.pop();
              i += 2;
            }
            // ./ segment
            else if (segmented[i + 1] === '/' || i + 1 === segmented.length) {
              i += 1;
            } else {
              // the start of a new segment as below
              segmentIndex = i;
              continue;
            }
  
            // this is the plain URI backtracking error (../, package:x -> error)
            if (parentIsPlain && output.length === 0)
              throwResolveError(relUrl, parentUrl);
  
            continue;
          }
  
          // it is the start of a new segment
          segmentIndex = i;
        }
        // finish reading out the last segment
        if (segmentIndex !== -1)
          output.push(segmented.substr(segmentIndex));
  
        return parentUrl.substr(0, parentUrl.length - pathname.length) + output.join('');
      }
  
      // sanitizes and verifies (by returning undefined if not a valid URL-like form)
      // Windows filepath compatibility is an added convenience here
      var protocolIndex = relUrl.indexOf(':');
      if (protocolIndex !== -1) {
        if (isNode) {
          // C:\x becomes file:///c:/x (we don't support C|\x)
          if (relUrl[1] === ':' && relUrl[2] === '\\' && relUrl[0].match(/[a-z]/i))
            return 'file:///' + relUrl.replace(/\\/g, '/');
        }
        return relUrl;
      }
    }
  
    var resolvedPromise$1 = Promise.resolve();
  
    /*
     * Simple Array values shim
     */
    function arrayValues(arr) {
      if (arr.values)
        return arr.values();
  
      if (typeof Symbol === 'undefined' || !Symbol.iterator)
        throw new Error('Symbol.iterator not supported in this browser');
  
      var iterable = {};
      iterable[Symbol.iterator] = function () {
        var keys = Object.keys(arr);
        var keyIndex = 0;
        return {
          next: function () {
            if (keyIndex < keys.length)
              return {
                value: arr[keys[keyIndex++]],
                done: false
              };
            else
              return {
                value: undefined,
                done: true
              };
          }
        };
      };
      return iterable;
    }
  
    /*
     * 3. Reflect.Loader
     *
     * We skip the entire native internal pipeline, just providing the bare API
     */
    // 3.1.1
    function Loader() {
      this.registry = new Registry();
    }
    // 3.3.1
    Loader.prototype.constructor = Loader;
  
    function ensureInstantiated(module) {
      if (!(module instanceof ModuleNamespace))
        throw new TypeError('Module instantiation did not return a valid namespace object.');
      return module;
    }
  
    // 3.3.2
    Loader.prototype.import = function (key, parent) {
      if (typeof key !== 'string') {
        throw new TypeError('Loader import method must be passed a module key string');
      }
      // custom resolveInstantiate combined hook for better performace
      var loader = this;
      return resolvedPromise$1
        .then(function () {
          return loader[RESOLVE_INSTANTIATE](key, parent);
        })
        .then(ensureInstantiated)
        //.then(Module.evaluate)
        /* 模块 */
        .catch(function (err) {
          throw LoaderError__Check_error_message_for_loader_stack(err, 'Loading ' + key + (parent ? ' from ' + parent : ''));
        });
  
    };
    // 3.3.3
    var RESOLVE = Loader.resolve = createSymbol('resolve');
  
    /*
     * Combined resolve / instantiate hook
     *
     * Not in current reduced spec, but necessary to separate RESOLVE from RESOLVE + INSTANTIATE as described
     * in the spec notes of this repo to ensure that loader.resolve doesn't instantiate when not wanted.
     *
     * We implement RESOLVE_INSTANTIATE as a single hook instead of a separate INSTANTIATE in order to avoid
     * the need for double registry lookups as a performance optimization.
     */
    var RESOLVE_INSTANTIATE = Loader.resolveInstantiate = createSymbol('resolveInstantiate');
  
    // default resolveInstantiate is just to call resolve and then get from the registry
    // this provides compatibility for the resolveInstantiate optimization
    Loader.prototype[RESOLVE_INSTANTIATE] = function (key, parent) {
      var loader = this;
      return loader.resolve(key, parent)
        .then(function (resolved) {
          return loader.registry.get(resolved);
        });
    };
  
    function ensureResolution(resolvedKey) {
      if (resolvedKey === undefined)
        throw new RangeError('No resolution found.');
      return resolvedKey;
    }
  
    Loader.prototype.resolve = function (key, parent) {
      var loader = this;
      return resolvedPromise$1
        .then(function () {
          return loader[RESOLVE](key, parent);
        })
        .then(ensureResolution)
        .catch(function (err) {
          throw LoaderError__Check_error_message_for_loader_stack(err, 'Resolving ' + key + (parent ? ' to ' + parent : ''));
        });
    };
  
    // 3.3.4 (import without evaluate)
    // this is not documented because the use of deferred evaluation as in Module.evaluate is not
    // documented, as it is not considered a stable feature to be encouraged
    // Loader.prototype.load may well be deprecated if this stays disabled
    /* Loader.prototype.load = function (key, parent) {
      return Promise.resolve(this[RESOLVE_INSTANTIATE](key, parent || this.key))
      .catch(function (err) {
        throw addToError(err, 'Loading ' + key + (parent ? ' from ' + parent : ''));
      });
    }; */
  
    /*
     * 4. Registry
     *
     * Instead of structuring through a Map, just use a dictionary object
     * We throw for construction attempts so this doesn't affect the public API
     *
     * Registry has been adjusted to use Namespace objects over ModuleStatus objects
     * as part of simplifying loader API implementation
     */
    var iteratorSupport = typeof Symbol !== 'undefined' && Symbol.iterator;
    var REGISTRY = createSymbol('registry');
  
    function Registry() {
      this[REGISTRY] = {};
    }
    // 4.4.1
    if (iteratorSupport) {
      // 4.4.2
      Registry.prototype[Symbol.iterator] = function () {
        return this.entries()[Symbol.iterator]();
      };
  
      // 4.4.3
      Registry.prototype.entries = function () {
        var registry = this[REGISTRY];
        return arrayValues(Object.keys(registry).map(function (key) {
          return [key, registry[key]];
        }));
      };
    }
  
    // 4.4.4
    Registry.prototype.keys = function () {
      return arrayValues(Object.keys(this[REGISTRY]));
    };
    // 4.4.5
    Registry.prototype.values = function () {
      var registry = this[REGISTRY];
      return arrayValues(Object.keys(registry).map(function (key) {
        return registry[key];
      }));
    };
    // 4.4.6
    Registry.prototype.get = function (key) {
      return this[REGISTRY][key];
    };
    // 4.4.7
    Registry.prototype.set = function (key, namespace) {
      if (!(namespace instanceof ModuleNamespace))
        throw new Error('Registry must be set with an instance of Module Namespace');
      this[REGISTRY][key] = namespace;
      return this;
    };
    // 4.4.8
    Registry.prototype.has = function (key) {
      return Object.hasOwnProperty.call(this[REGISTRY], key);
    };
    // 4.4.9
    Registry.prototype.delete = function (key) {
      if (Object.hasOwnProperty.call(this[REGISTRY], key)) {
        delete this[REGISTRY][key];
        return true;
      }
      return false;
    };
  
    /*
     * Simple ModuleNamespace Exotic object based on a baseObject
     * We export this for allowing a fast-path for module namespace creation over Module descriptors
     */
    // var EVALUATE = createSymbol('evaluate');
    var BASE_OBJECT = createSymbol('baseObject');
  
    // 8.3.1 Reflect.Module
    /*
     * Best-effort simplified non-spec implementation based on
     * a baseObject referenced via getters.
     *
     * Allows:
     *
     *   loader.registry.set('x', new Module({ default: 'x' }));
     *
     * Optional evaluation function provides experimental Module.evaluate
     * support for non-executed modules in registry.
     */
    function ModuleNamespace(baseObject /*, evaluate*/ ) {
      Object.defineProperty(this, BASE_OBJECT, {
        value: baseObject
      });
  
      // evaluate defers namespace population
      /* if (evaluate) {
        Object.defineProperty(this, EVALUATE, {
          value: evaluate,
          configurable: true,
          writable: true
        });
      }
      else { */
      Object.keys(baseObject).forEach(extendNamespace, this);
      //}
    }
    // 8.4.2
    ModuleNamespace.prototype = Object.create(null);
  
    if (typeof Symbol !== 'undefined' && Symbol.toStringTag)
      Object.defineProperty(ModuleNamespace.prototype, Symbol.toStringTag, {
        value: 'Module'
      });
  
    function extendNamespace(key) {
      Object.defineProperty(this, key, {
        enumerable: true,
        get: function () {
          return this[BASE_OBJECT][key];
        }
      });
    }
  
    /* function doEvaluate (evaluate, context) {
      try {
        evaluate.call(context);
      }
      catch (e) {
        return e;
      }
    }
  
    // 8.4.1 Module.evaluate... not documented or used because this is potentially unstable
    Module.evaluate = function (ns) {
      var evaluate = ns[EVALUATE];
      if (evaluate) {
        ns[EVALUATE] = undefined;
        var err = doEvaluate(evaluate);
        if (err) {
          // cache the error
          ns[EVALUATE] = function () {
            throw err;
          };
          throw err;
        }
        Object.keys(ns[BASE_OBJECT]).forEach(extendNamespace, ns);
      }
      // make chainable
      return ns;
    }; */
  
    /*
     * Register Loader
     *
     * Builds directly on top of loader polyfill to provide:
     * - loader.register support
     * - hookable higher-level resolve
     * - instantiate hook returning a ModuleNamespace or undefined for es module loading
     * - loader error behaviour as in HTML and loader specs, caching load and eval errors separately
     * - build tracing support by providing a .trace=true and .loads object format
     */
  
    var REGISTER_INTERNAL = createSymbol('register-internal');
  
    function RegisterLoader$1() {
      Loader.call(this);
  
      var registryDelete = this.registry.delete;
      this.registry.delete = function (key) {
        var deleted = registryDelete.call(this, key);
  
        // also delete from register registry if linked
        if (records.hasOwnProperty(key) && !records[key].linkRecord) {
          delete records[key];
          deleted = true;
        }
  
        return deleted;
      };
  
      var records = {};
  
      this[REGISTER_INTERNAL] = {
        // last anonymous System.register call
        lastRegister: undefined,
        // in-flight es module load records
        records: records
      };
  
      // tracing
      this.trace = false;
    }
  
    RegisterLoader$1.prototype = Object.create(Loader.prototype);
    RegisterLoader$1.prototype.constructor = RegisterLoader$1;
  
    var INSTANTIATE = RegisterLoader$1.instantiate = createSymbol('instantiate');
  
    // default normalize is the WhatWG style normalizer
    RegisterLoader$1.prototype[RegisterLoader$1.resolve = Loader.resolve] = function (key, parentKey) {
      return resolveIfNotPlain(key, parentKey || baseURI);
    };
  
    RegisterLoader$1.prototype[INSTANTIATE] = function (key, processAnonRegister) {};
  
    // once evaluated, the linkRecord is set to undefined leaving just the other load record properties
    // this allows tracking new binding listeners for es modules through importerSetters
    // for dynamic modules, the load record is removed entirely.
    /*  */
    function createLoadRecord(state, key, registration) {
      return state.records[key] = {
        key: key,
  
        // defined System.register cache
        registration: registration,
  
        // module namespace object
        module: undefined,
  
        // es-only
        // this sticks around so new module loads can listen to binding changes
        // for already-loaded modules by adding themselves to their importerSetters
        importerSetters: undefined,
  
        loadError: undefined,
        evalError: undefined,
  
        // in-flight linking record
        linkRecord: {
          // promise for instantiated
          instantiatePromise: undefined,
          dependencies: undefined,
          execute: undefined,
          executingRequire: false,
  
          // underlying module object bindings
          moduleObj: undefined,
  
          // es only, also indicates if es or not
          setters: undefined,
  
          // promise for instantiated dependencies (dependencyInstantiations populated)
          depsInstantiatePromise: undefined,
          // will be the array of dependency load record or a module namespace
          dependencyInstantiations: undefined,
  
          // NB optimization and way of ensuring module objects in setters
          // indicates setters which should run pre-execution of that dependency
          // setters is then just for completely executed module objects
          // alternatively we just pass the partially filled module objects as
          // arguments into the execute function
          // hoisted: undefined
        }
      };
    }
  
    RegisterLoader$1.prototype[Loader.resolveInstantiate] = function (key, parentKey) {
      /* TODO:cache */
      var loader = this;
      var state = this[REGISTER_INTERNAL];
      var registry = this.registry[REGISTRY];
  
      return resolveInstantiate(loader, key, parentKey, registry, state)
        .then(function (instantiated) {
          if (instantiated instanceof ModuleNamespace)
            return instantiated;
  
          // resolveInstantiate always returns a load record with a link record and no module value
          var link = instantiated.linkRecord;
  
          // if already beaten to done, return
          if (!link) {
            if (instantiated.module)
              return instantiated.module;
            throw instantiated.evalError;
          }
  
          return deepInstantiateDeps(loader, instantiated, link, registry, state)
            .then(function () {
              var res = ensureEvaluate(loader, instantiated, link, registry, state, undefined);
              return res
            });
        });
    };
  
    function resolveInstantiate(loader, key, parentKey, registry, state) {
      // normalization shortpath for already-normalized key
      // could add a plain name filter, but doesn't yet seem necessary for perf
      var module = registry[key];
      if (module)
        return Promise.resolve(module);
  
      var load = state.records[key];
  
      // already linked but not in main registry is ignored
      if (load && !load.module) {
        if (load.loadError)
          return Promise.reject(load.loadError);
        return instantiate(loader, load, load.linkRecord, registry, state);
      }
  
      return loader.resolve(key, parentKey)
        .then(function (resolvedKey) {
          // main loader registry always takes preference
          module = registry[resolvedKey];
          if (module) {
            return module;
          }
  
          load = state.records[resolvedKey];
  
          /* 
           * already has a module value but not already in the registry (load.module)
           * means it was removed by registry.delete, so we should
           * disgard the current load record creating a new one over it
           * but keep any existing registration 
           */
          if (!load || load.module) {
            load = createLoadRecord(state, resolvedKey, load && load.registration);
          }
          if (load.loadError) {
            return Promise.reject(load.loadError);
          }
  
          var link = load.linkRecord;
          if (!link) {
            return load;
          }
  
          return instantiate(loader, load, link, registry, state);
        });
    }
  
    function createProcessAnonRegister(loader, load, state) {
      return function () {
        var lastRegister = state.lastRegister;
  
        if (!lastRegister)
          return !!load.registration;
  
        state.lastRegister = undefined;
        load.registration = lastRegister;
  
        return true;
      };
    }
  
    function instantiate(loader, load, link, registry, state) {
      return link.instantiatePromise || (link.instantiatePromise =
        // if there is already an existing registration, skip running instantiate
        (load.registration ? Promise.resolve() : Promise.resolve().then(function () {
          state.lastRegister = undefined;
          return loader[INSTANTIATE](load.key, loader[INSTANTIATE].length > 1 && createProcessAnonRegister(loader, load, state));
        }))
        .then(function (instantiation) {
          // direct module return from instantiate -> we're done
          if (instantiation !== undefined) {
            if (!(instantiation instanceof ModuleNamespace))
              throw new TypeError('Instantiate did not return a valid Module object.');
  
            delete state.records[load.key];
            if (loader.trace)
              traceLoad(loader, load, link);
            return registry[load.key] = instantiation;
          }
  
          // run the cached loader.register declaration if there is one
          var registration = load.registration;
          // clear to allow new registrations for future loads (combined with registry delete)
          load.registration = undefined;
          if (!registration) {
            throw new TypeError('Module instantiation did not call an anonymous or correctly named System.register.');
          }
  
          link.dependencies = registration[0];
  
          load.importerSetters = [];
  
          link.moduleObj = {};
          // process System.registerDynamic declaration
          if (registration[2]) {
            link.moduleObj.default = link.moduleObj.__useDefault = {};
            link.executingRequire = registration[1];
            link.execute = registration[2];
          }
          // process System.register declaration
          else {
            registerDeclarative(loader, load, link, registration[1]);
          }
  
          return load;
        })
        .catch(function (err) {
          load.linkRecord = undefined;
          throw load.loadError = load.loadError || LoaderError__Check_error_message_for_loader_stack(err, 'Instantiating ' + load.key);
        }));
    }
  
    // like resolveInstantiate, but returning load records for linking
    function resolveInstantiateDep(loader, key, parentKey, registry, state, traceDepMap) {
      // normalization shortpaths for already-normalized key
      // DISABLED to prioritise consistent resolver calls
      // could add a plain name filter, but doesn't yet seem necessary for perf
      /* var load = state.records[key];
      var module = registry[key];
  
      if (module) {
        if (traceDepMap)
          traceDepMap[key] = key;
  
        // registry authority check in case module was deleted or replaced in main registry
        if (load && load.module && load.module === module)
          return load;
        else
          return module;
      }
  
      // already linked but not in main registry is ignored
      if (load && !load.module) {
        if (traceDepMap)
          traceDepMap[key] = key;
        return instantiate(loader, load, load.linkRecord, registry, state);
      } */
      return loader.resolve(key, parentKey)
        .then(function (resolvedKey) {
          if (traceDepMap)
            traceDepMap[key] = resolvedKey;
  
          // normalization shortpaths for already-normalized key
          var load = state.records[resolvedKey];
          var module = registry[resolvedKey];
  
          // main loader registry always takes preference
          if (module && (!load || load.module && module !== load.module))
            return module;
  
          if (load && load.loadError)
            throw load.loadError;
  
          // already has a module value but not already in the registry (load.module)
          // means it was removed by registry.delete, so we should
          // disgard the current load record creating a new one over it
          // but keep any existing registration
          if (!load || !module && load.module)
            load = createLoadRecord(state, resolvedKey, load && load.registration);
  
          var link = load.linkRecord;
          if (!link)
            return load;
  
          return instantiate(loader, load, link, registry, state);
        });
    }
  
    function traceLoad(loader, load, link) {
      loader.loads = loader.loads || {};
      loader.loads[load.key] = {
        key: load.key,
        deps: link.dependencies,
        dynamicDeps: [],
        depMap: link.depMap || {}
      };
    }
  
    /*
     * Convert a CJS module.exports into a valid object for new Module:
     *
     *   new Module(getEsModule(module.exports))
     *
     * Sets the default value to the module, while also reading off named exports carefully.
     */
    function registerDeclarative(loader, load, link, declare) {
      var moduleObj = link.moduleObj;
      var importerSetters = load.importerSetters;
  
      var definedExports = false;
  
      // closure especially not based on link to allow link record disposal
      var declared = declare.call(envGlobal, function (name, value) {
        if (typeof name === 'object') {
          var changed = false;
          for (var p in name) {
            value = name[p];
            if (p !== '__useDefault' && (!(p in moduleObj) || moduleObj[p] !== value)) {
              changed = true;
              moduleObj[p] = value;
            }
          }
          if (changed === false)
            return value;
        } else {
          if ((definedExports || name in moduleObj) && moduleObj[name] === value)
            return value;
          moduleObj[name] = value;
        }
  
        for (var i = 0; i < importerSetters.length; i++)
          importerSetters[i](moduleObj);
  
        return value;
      }, new ContextualLoader(loader, load.key));
  
      link.setters = declared.setters;
      link.execute = declared.execute;
      if (declared.exports) {
        link.moduleObj = moduleObj = declared.exports;
        definedExports = true;
      }
    }
  
    function instantiateDeps(loader, load, link, registry, state) {
      if (link.depsInstantiatePromise)
        return link.depsInstantiatePromise;
  
      var depsInstantiatePromises = Array(link.dependencies.length);
  
      for (var i = 0; i < link.dependencies.length; i++)
        depsInstantiatePromises[i] = resolveInstantiateDep(loader, link.dependencies[i], load.key, registry, state, loader.trace && link.depMap || (link.depMap = {}));
  
      var depsInstantiatePromise = Promise.all(depsInstantiatePromises)
        .then(function (dependencyInstantiations) {
          link.dependencyInstantiations = dependencyInstantiations;
  
          // run setters to set up bindings to instantiated dependencies
          if (link.setters) {
            for (var i = 0; i < dependencyInstantiations.length; i++) {
              var setter = link.setters[i];
              if (setter) {
                var instantiation = dependencyInstantiations[i];
  
                if (instantiation instanceof ModuleNamespace) {
                  setter(instantiation);
                } else {
                  if (instantiation.loadError)
                    throw instantiation.loadError;
                  setter(instantiation.module || instantiation.linkRecord.moduleObj);
                  // this applies to both es and dynamic registrations
                  if (instantiation.importerSetters)
                    instantiation.importerSetters.push(setter);
                }
              }
            }
          }
  
          return load;
        });
  
      if (loader.trace)
        depsInstantiatePromise = depsInstantiatePromise.then(function () {
          traceLoad(loader, load, link);
          return load;
        });
  
      depsInstantiatePromise = depsInstantiatePromise.catch(function (err) {
        // throw up the instantiateDeps stack
        link.depsInstantiatePromise = undefined;
        throw LoaderError__Check_error_message_for_loader_stack(err, 'Loading ' + load.key);
      });
  
      depsInstantiatePromise.catch(function () {});
  
      return link.depsInstantiatePromise = depsInstantiatePromise;
    }
  
    function deepInstantiateDeps(loader, load, link, registry, state) {
      return new Promise(function (resolve, reject) {
        var seen = [];
        var loadCnt = 0;
  
        function queueLoad(load) {
          var link = load.linkRecord;
          if (!link)
            return;
  
          if (seen.indexOf(load) !== -1)
            return;
          seen.push(load);
  
          loadCnt++;
          instantiateDeps(loader, load, link, registry, state)
            .then(processLoad, reject);
        }
  
        function processLoad(load) {
          loadCnt--;
          var link = load.linkRecord;
          if (link) {
            for (var i = 0; i < link.dependencies.length; i++) {
              var depLoad = link.dependencyInstantiations[i];
              if (!(depLoad instanceof ModuleNamespace))
                queueLoad(depLoad);
            }
          }
          if (loadCnt === 0)
            resolve();
        }
        queueLoad(load);
      });
    }
  
    /*
     * System.register
     */
    RegisterLoader$1.prototype.register = function (key, deps, declare) {
      var state = this[REGISTER_INTERNAL];
  
      // anonymous modules get stored as lastAnon
      if (declare === undefined) {
        state.lastRegister = [key, deps, undefined];
      }
  
      // everything else registers into the register cache
      else {
        var load = state.records[key] || createLoadRecord(state, key, undefined);
        load.registration = [deps, declare, undefined];
      }
    };
  
    /*
     * System.registerDyanmic
     */
    RegisterLoader$1.prototype.registerDynamic = function (key, deps, executingRequire, execute) {
      var state = this[REGISTER_INTERNAL];
  
      // anonymous modules get stored as lastAnon
      if (typeof key !== 'string') {
        state.lastRegister = [key, deps, executingRequire];
      }
  
      // everything else registers into the register cache
      else {
        var load = state.records[key] || createLoadRecord(state, key, undefined);
        load.registration = [deps, executingRequire, execute];
      }
    };
  
    // ContextualLoader class
    // backwards-compatible with previous System.register context argument by exposing .id, .key
    function ContextualLoader(loader, key) {
      this.loader = loader;
      this.key = this.id = key;
      this.meta = {
        url: key
        // scriptElement: null
      };
    }
    /*ContextualLoader.prototype.constructor = function () {
      throw new TypeError('Cannot subclass the contextual loader only Reflect.Loader.');
    };*/
    ContextualLoader.prototype.import = function (key) {
      if (this.loader.trace)
        this.loader.loads[this.key].dynamicDeps.push(key);
      return this.loader.import(key, this.key);
    };
    /*ContextualLoader.prototype.resolve = function (key) {
      return this.loader.resolve(key, this.key);
    };*/
  
    // this is the execution function bound to the Module namespace record
    function ensureEvaluate(loader, load, link, registry, state, seen) {
      if (load.module)
        return load.module;
  
      if (load.evalError)
        throw load.evalError;
  
      if (seen && seen.indexOf(load) !== -1)
        return load.linkRecord.moduleObj;
  
      // for ES loads we always run ensureEvaluate on top-level, so empty seen is passed regardless
      // for dynamic loads, we pass seen if also dynamic
      var err = doEvaluate(loader, load, link, registry, state, link.setters ? [] : seen || []);
      if (err)
        throw err;
      return load.module;
    }
  
    function makeDynamicRequire(loader, key, dependencies, dependencyInstantiations, registry, state, seen) {
      // we can only require from already-known dependencies
      return function (name) {
        for (var i = 0; i < dependencies.length; i++) {
          if (dependencies[i] === name) {
            var depLoad = dependencyInstantiations[i];
            var module;
  
            if (depLoad instanceof ModuleNamespace)
              module = depLoad;
            else
              module = ensureEvaluate(loader, depLoad, depLoad.linkRecord, registry, state, seen);
  
            return '__useDefault' in module ? module.__useDefault : module;
          }
        }
        throw new Error('Module ' + name + ' not declared as a System.registerDynamic dependency of ' + key);
      };
    }
  
    // ensures the given es load is evaluated
    // returns the error if any
    function doEvaluate(loader, load, link, registry, state, seen) {
      seen.push(load);
  
      var err;
  
      // es modules evaluate dependencies first
      // non es modules explicitly call moduleEvaluate through require
      if (link.setters) {
        var depLoad, depLink;
        for (var i = 0; i < link.dependencies.length; i++) {
          depLoad = link.dependencyInstantiations[i];
  
          if (depLoad instanceof ModuleNamespace)
            continue;
  
          // custom Module returned from instantiate
          depLink = depLoad.linkRecord;
          if (depLink && seen.indexOf(depLoad) === -1) {
            if (depLoad.evalError)
              err = depLoad.evalError;
            else
              // dynamic / declarative boundaries clear the "seen" list
              // we just let cross format circular throw as would happen in real implementations
              err = doEvaluate(loader, depLoad, depLink, registry, state, depLink.setters ? seen : []);
          }
  
          if (err) {
            load.linkRecord = undefined;
            load.evalError = LoaderError__Check_error_message_for_loader_stack(err, 'Evaluating ' + load.key);
            return load.evalError;
          }
        }
      }
  
      // link.execute won't exist for Module returns from instantiate on top-level load
      if (link.execute) {
        // ES System.register execute
        // "this" is null in ES
        if (link.setters) {
          err = declarativeExecute(link.execute);
        }
        // System.registerDynamic execute
        // "this" is "exports" in CJS
        else {
          var module = {
            id: load.key
          };
          var moduleObj = link.moduleObj;
          Object.defineProperty(module, 'exports', {
            configurable: true,
            set: function (exports) {
              moduleObj.default = moduleObj.__useDefault = exports;
            },
            get: function () {
              return moduleObj.__useDefault;
            }
          });
  
          var require = makeDynamicRequire(loader, load.key, link.dependencies, link.dependencyInstantiations, registry, state, seen);
  
          // evaluate deps first
          if (!link.executingRequire)
            for (var i = 0; i < link.dependencies.length; i++)
              require(link.dependencies[i]);
  
          err = dynamicExecute(link.execute, require, moduleObj.default, module);
  
          // pick up defineProperty calls to module.exports when we can
          if (module.exports !== moduleObj.__useDefault)
            moduleObj.default = moduleObj.__useDefault = module.exports;
  
          var moduleDefault = moduleObj.default;
  
          // __esModule flag extension support via lifting
          if (moduleDefault && moduleDefault.__esModule) {
            for (var p in moduleDefault) {
              if (Object.hasOwnProperty.call(moduleDefault, p))
                moduleObj[p] = moduleDefault[p];
            }
          }
        }
      }
  
      // dispose link record
      load.linkRecord = undefined;
  
      if (err)
        return load.evalError = LoaderError__Check_error_message_for_loader_stack(err, 'Evaluating ' + load.key);
  
      registry[load.key] = load.module = new ModuleNamespace(link.moduleObj);
  
      // if not an esm module, run importer setters and clear them
      // this allows dynamic modules to update themselves into es modules
      // as soon as execution has completed
      if (!link.setters) {
        if (load.importerSetters)
          for (var i = 0; i < load.importerSetters.length; i++)
            load.importerSetters[i](load.module);
        load.importerSetters = undefined;
      }
    }
  
    // {} is the closest we can get to call(undefined)
    var nullContext = {};
    if (Object.freeze)
      Object.freeze(nullContext);
  
    function declarativeExecute(execute) {
      try {
        execute.call(nullContext);
      } catch (e) {
        return e;
      }
    }
  
    function dynamicExecute(execute, require, exports, module) {
      try {
        var output = execute.call(envGlobal, require, exports, module);
        if (output !== undefined)
          module.exports = output;
      } catch (e) {
        return e;
      }
    }
  
    var resolvedPromise = Promise.resolve();
  
    function noop() {}
  
    var emptyModule = new ModuleNamespace({});
  
    function protectedCreateNamespace(bindings) {
      if (bindings instanceof ModuleNamespace)
        return bindings;
  
      if (bindings && bindings.__esModule)
        return new ModuleNamespace(bindings);
  
      return new ModuleNamespace({
        default: bindings,
        __useDefault: bindings
      });
    }
  
    var hasStringTag;
  
    function isModule(m) {
      if (hasStringTag === undefined)
        hasStringTag = typeof Symbol !== 'undefined' && !!Symbol.toStringTag;
      return m instanceof ModuleNamespace || hasStringTag && Object.prototype.toString.call(m) == '[object Module]';
    }
  
    var CONFIG = createSymbol('loader-config');
    var METADATA = createSymbol('metadata');
  
  
  
    var isWorker = typeof window === 'undefined' && typeof self !== 'undefined' && typeof importScripts !== 'undefined';
  
    function warn(msg, force) {
      if (force || this.warnings && typeof console !== 'undefined' && console.warn)
        console.warn(msg);
    }
  
    function checkInstantiateWasm(loader, wasmBuffer, processAnonRegister) {
      var bytes = new Uint8Array(wasmBuffer);
  
      // detect by leading bytes
      // Can be (new Uint32Array(fetched))[0] === 0x6D736100 when working in Node
      if (bytes[0] === 0 && bytes[1] === 97 && bytes[2] === 115) {
        return WebAssembly.compile(wasmBuffer).then(function (m) {
          var deps = [];
          var setters = [];
          var importObj = {};
  
          // we can only set imports if supported (eg Safari doesnt support)
          if (WebAssembly.Module.imports)
            WebAssembly.Module.imports(m).forEach(function (i) {
              var key = i.module;
              setters.push(function (m) {
                importObj[key] = m;
              });
              if (deps.indexOf(key) === -1)
                deps.push(key);
            });
          loader.register(deps, function (_export) {
            return {
              setters: setters,
              execute: function () {
                _export(new WebAssembly.Instance(m, importObj).exports);
              }
            };
          });
          processAnonRegister();
  
          return true;
        });
      }
  
      return Promise.resolve(false);
    }
  
    var parentModuleContext;
  
    function loadNodeModule(key, baseURL) {
      if (key[0] === '.')
        throw new Error('Node module ' + key + ' can\'t be loaded as it is not a package require.');
  
      if (!parentModuleContext) {
        var Module = this._nodeRequire('module');
        var base = decodeURI(baseURL.substr(isWindows ? 8 : 7));
        parentModuleContext = new Module(base);
        parentModuleContext.paths = Module._nodeModulePaths(base);
      }
      return parentModuleContext.require(key);
    }
  
    function extend(a, b) {
      for (var p in b) {
        if (!Object.hasOwnProperty.call(b, p))
          continue;
        a[p] = b[p];
      }
      return a;
    }
  
    function prepend(a, b) {
      for (var p in b) {
        if (!Object.hasOwnProperty.call(b, p))
          continue;
        if (a[p] === undefined)
          a[p] = b[p];
      }
      return a;
    }
  
    // meta first-level extends where:
    // array + array appends
    // object + object extends
    // other properties replace
    function extendMeta(a, b, _prepend) {
      for (var p in b) {
        if (!Object.hasOwnProperty.call(b, p))
          continue;
        var val = b[p];
        if (a[p] === undefined)
          a[p] = val;
        else if (val instanceof Array && a[p] instanceof Array)
          a[p] = [].concat(_prepend ? val : a[p]).concat(_prepend ? a[p] : val);
        else if (typeof val == 'object' && val !== null && typeof a[p] == 'object')
          a[p] = (_prepend ? prepend : extend)(extend({}, a[p]), val);
        else if (!_prepend)
          a[p] = val;
      }
    }
  
    var supportsPreload = false;
    var supportsPrefetch = false;
    if (isBrowser)
      (function () {
        var relList = document.createElement('link').relList;
        if (relList && relList.supports) {
          supportsPrefetch = true;
          try {
            supportsPreload = relList.supports('preload');
          } catch (e) {}
        }
      })();
  
    function preloadScript(url) {
      // fallback to old fashioned image technique which still works in safari
      if (!supportsPreload && !supportsPrefetch) {
        var preloadImage = new Image();
        preloadImage.src = url;
        return;
      }
  
      var link = document.createElement('link');
      if (supportsPreload) {
        link.rel = 'preload';
        link.as = 'script';
      } else {
        // this works for all except Safari (detected by relList.supports lacking)
        link.rel = 'prefetch';
      }
      link.href = url;
      document.head.appendChild(link);
    }
  
    function workerImport(src, resolve, reject) {
      try {
        importScripts(src);
      } catch (e) {
        reject(e);
      }
      resolve();
    }
  
    if (isBrowser) {
      var loadingScripts = [];
      var onerror = window.onerror;
      window.onerror = function globalOnerror(msg, src) {
        for (var i = 0; i < loadingScripts.length; i++) {
          if (loadingScripts[i].src !== src)
            continue;
          loadingScripts[i].err(msg);
          return;
        }
        if (onerror)
          onerror.apply(this, arguments);
      };
    }
  
    function scriptLoad(src, crossOrigin, integrity, resolve, reject) {
      // percent encode just "#" for HTTP requests
      src = src.replace(/#/g, '%23');
  
      // subresource integrity is not supported in web workers
      if (isWorker)
        return workerImport(src, resolve, reject);
  
      var script = document.createElement('script');
      script.type = 'text/javascript';
      script.charset = 'utf-8';
      script.async = true;
  
      if (crossOrigin)
        script.crossOrigin = crossOrigin;
      if (integrity)
        script.integrity = integrity;
  
      script.addEventListener('load', load, false);
      script.addEventListener('error', error, false);
  
      script.src = src;
      document.head.appendChild(script);
  
      function load() {
        resolve();
        cleanup();
      }
  
      // note this does not catch execution errors
      function error(err) {
        cleanup();
        reject(new Error('Fetching ' + src));
      }
  
      function cleanup() {
        for (var i = 0; i < loadingScripts.length; i++) {
          if (loadingScripts[i].err === error) {
            loadingScripts.splice(i, 1);
            break;
          }
        }
        script.removeEventListener('load', load, false);
        script.removeEventListener('error', error, false);
        document.head.removeChild(script);
      }
    }
  
    function readMemberExpression(p, value) {
      var pParts = p.split('.');
      while (pParts.length)
        value = value[pParts.shift()];
      return value;
    }
  
    // separate out paths cache as a baseURL lock process
    function applyPaths(baseURL, paths, key) {
      var mapMatch = getMapMatch(paths, key);
      if (mapMatch) {
        var target = paths[mapMatch] + key.substr(mapMatch.length);
  
        var resolved = resolveIfNotPlain(target, baseURI);
        if (resolved !== undefined)
          return resolved;
  
        return baseURL + target;
      } else if (key.indexOf(':') !== -1) {
        return key;
      } else {
        return baseURL + key;
      }
    }
  
    function checkMap(p) {
      var name = this.name;
      // can add ':' here if we want paths to match the behaviour of map
      if (name.substr(0, p.length) === p && (name.length === p.length || name[p.length] === '/' || p[p.length - 1] === '/' || p[p.length - 1] === ':')) {
        var curLen = p.split('/').length;
        if (curLen > this.len) {
          this.match = p;
          this.len = curLen;
        }
      }
    }
  
    function getMapMatch(map, name) {
      if (Object.hasOwnProperty.call(map, name))
        return name;
  
      var bestMatch = {
        name: name,
        match: undefined,
        len: 0
      };
  
      Object.keys(map).forEach(checkMap, bestMatch);
  
      return bestMatch.match;
    }
  
    // RegEx adjusted from https://github.com/jbrantly/yabble/blob/master/lib/yabble.js#L339
    var cjsRequireRegEx = /(?:^\uFEFF?|[^$_a-zA-Z\xA0-\uFFFF."'])require\s*\(\s*("[^"\\]*(?:\\.[^"\\]*)*"|'[^'\\]*(?:\\.[^'\\]*)*'|`[^`\\]*(?:\\.[^`\\]*)*`)\s*\)/g;
  
    /*
     * Source loading
     */
    function fetchFetch(url, authorization, integrity, asBuffer) {
      return xhrFetch(url, authorization, integrity, asBuffer);
    }
  
    function xhrFetch(url, authorization, integrity, asBuffer) {
      return window._.$xhrFetchWithCache(url, authorization, integrity, asBuffer);
    }
  
    var fs;
  
    function nodeFetch(url, authorization, integrity, asBuffer) {
      if (url.substr(0, 8) != 'file:///')
        return Promise.reject(new Error('Unable to fetch "' + url + '". Only file URLs of the form file:/// supported running in Node.'));
  
      fs = fs || require('fs');
      if (isWindows)
        url = url.replace(/\//g, '\\').substr(8);
      else
        url = url.substr(7);
  
      return new Promise(function (resolve, reject) {
        fs.readFile(url, function (err, data) {
          if (err) {
            return reject(err);
          } else {
            if (asBuffer) {
              resolve(data);
            } else {
              // Strip Byte Order Mark out if it's the leading char
              var dataString = data + '';
              if (dataString[0] === '\ufeff')
                dataString = dataString.substr(1);
  
              resolve(dataString);
            }
          }
        });
      });
    }
  
    function noFetch() {
      throw new Error('No fetch method is defined for this environment.');
    }
  
    var fetchFunction;
  
    var hasXhr = typeof XMLHttpRequest !== 'undefined';
  
    if (typeof self !== 'undefined' && typeof self.fetch !== 'undefined')
      fetchFunction = fetchFetch;
    else if (hasXhr)
      fetchFunction = xhrFetch;
    else if (typeof require !== 'undefined' && typeof process !== 'undefined')
      fetchFunction = nodeFetch;
    else
      fetchFunction = noFetch;
  
    var fetch$1 = fetchFunction;
  
    function createMetadata() {
      return {
        pluginKey: undefined,
        pluginArgument: undefined,
        pluginModule: undefined,
        packageKey: undefined,
        packageConfig: undefined,
        load: undefined
      };
    }
  
    function getParentMetadata(loader, config, parentKey) {
      var parentMetadata = createMetadata();
  
      if (parentKey) {
        // detect parent plugin
        // we just need pluginKey to be truthy for package configurations
        // so we duplicate it as pluginArgument - although not correct its not used
        var parentPluginIndex;
        if (config.pluginFirst) {
          if ((parentPluginIndex = parentKey.lastIndexOf('!')) !== -1)
            parentMetadata.pluginArgument = parentMetadata.pluginKey = parentKey.substr(0, parentPluginIndex);
        } else {
          if ((parentPluginIndex = parentKey.indexOf('!')) !== -1)
            parentMetadata.pluginArgument = parentMetadata.pluginKey = parentKey.substr(parentPluginIndex + 1);
        }
  
        // detect parent package
        parentMetadata.packageKey = getMapMatch(config.packages, parentKey);
        if (parentMetadata.packageKey)
          parentMetadata.packageConfig = config.packages[parentMetadata.packageKey];
      }
  
      return parentMetadata;
    }
  
    function normalize(key, parentKey) {
      var config = this[CONFIG];
  
      var metadata = createMetadata();
      var parentMetadata = getParentMetadata(this, config, parentKey);
  
      var loader = this;
  
      return Promise.resolve()
  
        // boolean conditional
        .then(function () {
          // first we normalize the conditional
          var booleanIndex = key.lastIndexOf('#?');
  
          if (booleanIndex === -1)
            return Promise.resolve(key);
  
          var conditionObj = parseCondition.call(loader, key.substr(booleanIndex + 2));
  
          // in builds, return normalized conditional
          /*if (this.builder)
            return this.resolve(conditionObj.module, parentKey)
            .then(function (conditionModule) {
              conditionObj.module = conditionModule;
              return key.substr(0, booleanIndex) + '#?' + serializeCondition(conditionObj);
            });*/
  
          return resolveCondition.call(loader, conditionObj, parentKey, true)
            .then(function (conditionValue) {
              return conditionValue ? key.substr(0, booleanIndex) : '@empty';
            });
        })
  
        // plugin
        .then(function (key) {
          var parsed = parsePlugin(config.pluginFirst, key);
  
          if (!parsed)
            return packageResolve.call(loader, config, key, parentMetadata && parentMetadata.pluginArgument || parentKey, metadata, parentMetadata, false);
  
          metadata.pluginKey = parsed.plugin;
  
          return Promise.all([
              packageResolve.call(loader, config, parsed.argument, parentMetadata && parentMetadata.pluginArgument || parentKey, metadata, parentMetadata, true),
              loader.resolve(parsed.plugin, parentKey)
            ])
            .then(function (normalized) {
              metadata.pluginArgument = normalized[0];
              metadata.pluginKey = normalized[1];
  
              // don't allow a plugin to load itself
              if (metadata.pluginArgument === metadata.pluginKey)
                throw new Error('Plugin ' + metadata.pluginArgument + ' cannot load itself, make sure it is excluded from any wildcard meta configuration via a custom loader: false rule.');
  
              return combinePluginParts(config.pluginFirst, normalized[0], normalized[1]);
            });
        })
        .then(function (normalized) {
          return interpolateConditional.call(loader, normalized, parentKey, parentMetadata);
        })
        .then(function (normalized) {
          setMeta.call(loader, config, normalized, metadata);
  
          if (metadata.pluginKey || !metadata.load.loader)
            return normalized;
  
          // loader by configuration
          // normalizes to parent to support package loaders
          return loader.resolve(metadata.load.loader, normalized)
            .then(function (pluginKey) {
              metadata.pluginKey = pluginKey;
              metadata.pluginArgument = normalized;
              return normalized;
            });
        })
        .then(function (normalized) {
          loader[METADATA][normalized] = metadata;
          return normalized;
        });
    }
  
    // normalization function used for registry keys
    // just does coreResolve without map
    function decanonicalize(config, key) {
      var parsed = parsePlugin(config.pluginFirst, key);
  
      // plugin
      if (parsed) {
        var pluginKey = decanonicalize.call(this, config, parsed.plugin);
        return combinePluginParts(config.pluginFirst, coreResolve.call(this, config, parsed.argument, undefined, false, false), pluginKey);
      }
  
      return coreResolve.call(this, config, key, undefined, false, false);
    }
  
    function normalizeSync(key, parentKey) {
      var config = this[CONFIG];
  
      // normalizeSync is metadataless, so create metadata
      var metadata = createMetadata();
      var parentMetadata = parentMetadata || getParentMetadata(this, config, parentKey);
  
      var parsed = parsePlugin(config.pluginFirst, key);
  
      // plugin
      if (parsed) {
        metadata.pluginKey = normalizeSync.call(this, parsed.plugin, parentKey);
        return combinePluginParts(config.pluginFirst,
          packageResolveSync.call(this, config, parsed.argument, parentMetadata.pluginArgument || parentKey, metadata, parentMetadata, !!metadata.pluginKey),
          metadata.pluginKey);
      }
  
      return packageResolveSync.call(this, config, key, parentMetadata.pluginArgument || parentKey, metadata, parentMetadata, !!metadata.pluginKey);
    }
  
    function coreResolve(config, key, parentKey, doMap, packageName) {
      var relativeResolved = resolveIfNotPlain(key, parentKey || baseURI);
  
      // standard URL resolution
      if (relativeResolved)
        return applyPaths(config.baseURL, config.paths, relativeResolved);
  
      // plain keys not starting with './', 'x://' and '/' go through custom resolution
      if (doMap) {
        var mapMatch = getMapMatch(config.map, key);
  
        if (mapMatch) {
          key = config.map[mapMatch] + key.substr(mapMatch.length);
  
          relativeResolved = resolveIfNotPlain(key, baseURI);
          if (relativeResolved)
            return applyPaths(config.baseURL, config.paths, relativeResolved);
        }
      }
  
      if (this.registry.has(key))
        return key;
  
      if (key.substr(0, 6) === '@node/')
        return key;
  
      var trailingSlash = packageName && key[key.length - 1] !== '/';
      var resolved = applyPaths(config.baseURL, config.paths, trailingSlash ? key + '/' : key);
      if (trailingSlash)
        return resolved.substr(0, resolved.length - 1);
      return resolved;
    }
  
    function packageResolveSync(config, key, parentKey, metadata, parentMetadata, skipExtensions) {
      // ignore . since internal maps handled by standard package resolution
      if (parentMetadata && parentMetadata.packageConfig && key[0] !== '.') {
        var parentMap = parentMetadata.packageConfig.map;
        var parentMapMatch = parentMap && getMapMatch(parentMap, key);
  
        if (parentMapMatch && typeof parentMap[parentMapMatch] === 'string') {
          var mapped = doMapSync(this, config, parentMetadata.packageConfig, parentMetadata.packageKey, parentMapMatch, key, metadata, skipExtensions);
          if (mapped)
            return mapped;
        }
      }
  
      var normalized = coreResolve.call(this, config, key, parentKey, true, true);
  
      var pkgConfigMatch = getPackageConfigMatch(config, normalized);
      metadata.packageKey = pkgConfigMatch && pkgConfigMatch.packageKey || getMapMatch(config.packages, normalized);
  
      if (!metadata.packageKey)
        return normalized;
  
      if (config.packageConfigKeys.indexOf(normalized) !== -1) {
        metadata.packageKey = undefined;
        return normalized;
      }
  
      metadata.packageConfig = config.packages[metadata.packageKey] || (config.packages[metadata.packageKey] = createPackage());
  
      var subPath = normalized.substr(metadata.packageKey.length + 1);
  
      return applyPackageConfigSync(this, config, metadata.packageConfig, metadata.packageKey, subPath, metadata, skipExtensions);
    }
  
    function packageResolve(config, key, parentKey, metadata, parentMetadata, skipExtensions) {
      var loader = this;
  
      return resolvedPromise
        .then(function () {
          // ignore . since internal maps handled by standard package resolution
          if (parentMetadata && parentMetadata.packageConfig && key.substr(0, 2) !== './') {
            var parentMap = parentMetadata.packageConfig.map;
            var parentMapMatch = parentMap && getMapMatch(parentMap, key);
  
            if (parentMapMatch)
              return doMap(loader, config, parentMetadata.packageConfig, parentMetadata.packageKey, parentMapMatch, key, metadata, skipExtensions);
          }
  
          return resolvedPromise;
        })
        .then(function (mapped) {
          if (mapped)
            return mapped;
  
          // apply map, core, paths, contextual package map
          var normalized = coreResolve.call(loader, config, key, parentKey, true, true);
  
          var pkgConfigMatch = getPackageConfigMatch(config, normalized);
          metadata.packageKey = pkgConfigMatch && pkgConfigMatch.packageKey || getMapMatch(config.packages, normalized);
  
          if (!metadata.packageKey)
            return Promise.resolve(normalized);
  
          if (config.packageConfigKeys.indexOf(normalized) !== -1) {
            metadata.packageKey = undefined;
            metadata.load = createMeta();
            metadata.load.format = 'json';
            // ensure no loader
            metadata.load.loader = '';
            return Promise.resolve(normalized);
          }
  
          metadata.packageConfig = config.packages[metadata.packageKey] || (config.packages[metadata.packageKey] = createPackage());
  
          // load configuration when it matches packageConfigPaths, not already configured, and not the config itself
          var loadConfig = pkgConfigMatch && !metadata.packageConfig.configured;
  
          return (loadConfig ? loadPackageConfigPath(loader, config, pkgConfigMatch.configPath, metadata) : resolvedPromise)
            .then(function () {
              var subPath = normalized.substr(metadata.packageKey.length + 1);
  
              return applyPackageConfig(loader, config, metadata.packageConfig, metadata.packageKey, subPath, metadata, skipExtensions);
            });
        });
    }
  
    function createMeta() {
      return {
        extension: '',
        deps: undefined,
        format: undefined,
        loader: undefined,
        scriptLoad: undefined,
        globals: undefined,
        nonce: undefined,
        integrity: undefined,
        sourceMap: undefined,
        exports: undefined,
        encapsulateGlobal: false,
        crossOrigin: undefined,
        cjsRequireDetection: true,
        cjsDeferDepsExecute: false,
        esModule: false
      };
    }
  
    function setMeta(config, key, metadata) {
      metadata.load = metadata.load || createMeta();
  
      // apply wildcard metas
      var bestDepth = 0;
      var wildcardIndex;
      for (var module in config.meta) {
        wildcardIndex = module.indexOf('*');
        if (wildcardIndex === -1)
          continue;
        if (module.substr(0, wildcardIndex) === key.substr(0, wildcardIndex) &&
          module.substr(wildcardIndex + 1) === key.substr(key.length - module.length + wildcardIndex + 1)) {
          var depth = module.split('/').length;
          if (depth > bestDepth)
            bestDepth = depth;
          extendMeta(metadata.load, config.meta[module], bestDepth !== depth);
        }
      }
  
      // apply exact meta
      if (config.meta[key])
        extendMeta(metadata.load, config.meta[key], false);
  
      // apply package meta
      if (metadata.packageKey) {
        var subPath = key.substr(metadata.packageKey.length + 1);
  
        var meta = {};
        if (metadata.packageConfig.meta) {
          var bestDepth = 0;
          getMetaMatches(metadata.packageConfig.meta, subPath, function (metaPattern, matchMeta, matchDepth) {
            if (matchDepth > bestDepth)
              bestDepth = matchDepth;
            extendMeta(meta, matchMeta, matchDepth && bestDepth > matchDepth);
          });
  
          extendMeta(metadata.load, meta, false);
        }
  
        // format
        if (metadata.packageConfig.format && !metadata.pluginKey && !metadata.load.loader)
          metadata.load.format = metadata.load.format || metadata.packageConfig.format;
      }
    }
  
    function parsePlugin(pluginFirst, key) {
      var argumentKey;
      var pluginKey;
  
      var pluginIndex = pluginFirst ? key.indexOf('!') : key.lastIndexOf('!');
  
      if (pluginIndex === -1)
        return;
  
      if (pluginFirst) {
        argumentKey = key.substr(pluginIndex + 1);
        pluginKey = key.substr(0, pluginIndex);
      } else {
        argumentKey = key.substr(0, pluginIndex);
        pluginKey = key.substr(pluginIndex + 1) || argumentKey.substr(argumentKey.lastIndexOf('.') + 1);
      }
  
      return {
        argument: argumentKey,
        plugin: pluginKey
      };
    }
  
    // put key back together after parts have been normalized
    function combinePluginParts(pluginFirst, argumentKey, pluginKey) {
      if (pluginFirst)
        return pluginKey + '!' + argumentKey;
      else
        return argumentKey + '!' + pluginKey;
    }
  
    /*
     * Package Configuration Extension
     *
     * Example:
     *
     * SystemJS.packages = {
     *   jquery: {
     *     main: 'index.js', // when not set, package key is requested directly
     *     format: 'amd',
     *     defaultExtension: 'ts', // defaults to 'js', can be set to false
     *     modules: {
     *       '*.ts': {
     *         loader: 'typescript'
     *       },
     *       'vendor/sizzle.js': {
     *         format: 'global'
     *       }
     *     },
     *     map: {
     *        // map internal require('sizzle') to local require('./vendor/sizzle')
     *        sizzle: './vendor/sizzle.js',
     *        // map any internal or external require of 'jquery/vendor/another' to 'another/index.js'
     *        './vendor/another.js': './another/index.js',
     *        // test.js / test -> lib/test.js
     *        './test.js': './lib/test.js',
     *
     *        // environment-specific map configurations
     *        './index.js': {
     *          '~browser': './index-node.js',
     *          './custom-condition.js|~export': './index-custom.js'
     *        }
     *     },
     *     // allows for setting package-prefixed depCache
     *     // keys are normalized module keys relative to the package itself
     *     depCache: {
     *       // import 'package/index.js' loads in parallel package/lib/test.js,package/vendor/sizzle.js
     *       './index.js': ['./test'],
     *       './test.js': ['external-dep'],
     *       'external-dep/path.js': ['./another.js']
     *     }
     *   }
     * };
     *
     * Then:
     *   import 'jquery'                       -> jquery/index.js
     *   import 'jquery/submodule'             -> jquery/submodule.js
     *   import 'jquery/submodule.ts'          -> jquery/submodule.ts loaded as typescript
     *   import 'jquery/vendor/another'        -> another/index.js
     *
     * Detailed Behaviours
     * - main can have a leading "./" can be added optionally
     * - map and defaultExtension are applied to the main
     * - defaultExtension adds the extension only if the exact extension is not present
  
     * - if a meta value is available for a module, map and defaultExtension are skipped
     * - like global map, package map also applies to subpaths (sizzle/x, ./vendor/another/sub)
     * - condition module map is '@env' module in package or '@system-env' globally
     * - map targets support conditional interpolation ('./x': './x.#{|env}.js')
     * - internal package map targets cannot use boolean conditionals
     *
     * Package Configuration Loading
     *
     * Not all packages may already have their configuration present in the System config
     * For these cases, a list of packageConfigPaths can be provided, which when matched against
     * a request, will first request a ".json" file by the package key to derive the package
     * configuration from. This allows dynamic loading of non-predetermined code, a key use
     * case in SystemJS.
     *
     * Example:
     *
     *   SystemJS.packageConfigPaths = ['packages/test/package.json', 'packages/*.json'];
     *
     *   // will first request 'packages/new-package/package.json' for the package config
     *   // before completing the package request to 'packages/new-package/path'
     *   SystemJS.import('packages/new-package/path');
     *
     *   // will first request 'packages/test/package.json' before the main
     *   SystemJS.import('packages/test');
     *
     * When a package matches packageConfigPaths, it will always send a config request for
     * the package configuration.
     * The package key itself is taken to be the match up to and including the last wildcard
     * or trailing slash.
     * The most specific package config path will be used.
     * Any existing package configurations for the package will deeply merge with the
     * package config, with the existing package configurations taking preference.
     * To opt-out of the package configuration request for a package that matches
     * packageConfigPaths, use the { configured: true } package config option.
     *
     */
  
    function addDefaultExtension(config, pkg, pkgKey, subPath, skipExtensions) {
      // don't apply extensions to folders or if defaultExtension = false
      if (!subPath || !pkg.defaultExtension || subPath[subPath.length - 1] === '/' || skipExtensions)
        return subPath;
  
      var metaMatch = false;
  
      // exact meta or meta with any content after the last wildcard skips extension
      if (pkg.meta)
        getMetaMatches(pkg.meta, subPath, function (metaPattern, matchMeta, matchDepth) {
          if (matchDepth === 0 || metaPattern.lastIndexOf('*') !== metaPattern.length - 1)
            return metaMatch = true;
        });
  
      // exact global meta or meta with any content after the last wildcard skips extension
      if (!metaMatch && config.meta)
        getMetaMatches(config.meta, pkgKey + '/' + subPath, function (metaPattern, matchMeta, matchDepth) {
          if (matchDepth === 0 || metaPattern.lastIndexOf('*') !== metaPattern.length - 1)
            return metaMatch = true;
        });
  
      if (metaMatch)
        return subPath;
  
      // work out what the defaultExtension is and add if not there already
      var defaultExtension = '.' + pkg.defaultExtension;
      if (subPath.substr(subPath.length - defaultExtension.length) !== defaultExtension)
        return subPath + defaultExtension;
      else
        return subPath;
    }
  
    function applyPackageConfigSync(loader, config, pkg, pkgKey, subPath, metadata, skipExtensions) {
      // main
      if (!subPath) {
        if (pkg.main)
          subPath = pkg.main.substr(0, 2) === './' ? pkg.main.substr(2) : pkg.main;
        else
          // also no submap if key is package itself (import 'pkg' -> 'path/to/pkg.js')
          // NB can add a default package main convention here
          // if it becomes internal to the package then it would no longer be an exit path
          return pkgKey;
      }
  
      // map config checking without then with extensions
      if (pkg.map) {
        var mapPath = './' + subPath;
  
        var mapMatch = getMapMatch(pkg.map, mapPath);
  
        // we then check map with the default extension adding
        if (!mapMatch) {
          mapPath = './' + addDefaultExtension(config, pkg, pkgKey, subPath, skipExtensions);
          if (mapPath !== './' + subPath)
            mapMatch = getMapMatch(pkg.map, mapPath);
        }
        if (mapMatch) {
          var mapped = doMapSync(loader, config, pkg, pkgKey, mapMatch, mapPath, metadata, skipExtensions);
          if (mapped)
            return mapped;
        }
      }
  
      // normal package resolution
      return pkgKey + '/' + addDefaultExtension(config, pkg, pkgKey, subPath, skipExtensions);
    }
  
    function validMapping(mapMatch, mapped, path) {
      // allow internal ./x -> ./x/y or ./x/ -> ./x/y recursive maps
      // but only if the path is exactly ./x and not ./x/z
      if (mapped.substr(0, mapMatch.length) === mapMatch && path.length > mapMatch.length)
        return false;
  
      return true;
    }
  
    function doMapSync(loader, config, pkg, pkgKey, mapMatch, path, metadata, skipExtensions) {
      if (path[path.length - 1] === '/')
        path = path.substr(0, path.length - 1);
      var mapped = pkg.map[mapMatch];
  
      if (typeof mapped === 'object')
        throw new Error('Synchronous conditional normalization not supported sync normalizing ' + mapMatch + ' in ' + pkgKey);
  
      if (!validMapping(mapMatch, mapped, path) || typeof mapped !== 'string')
        return;
  
      return packageResolveSync.call(loader, config, mapped + path.substr(mapMatch.length), pkgKey + '/', metadata, metadata, skipExtensions);
    }
  
    function applyPackageConfig(loader, config, pkg, pkgKey, subPath, metadata, skipExtensions) {
      // main
      if (!subPath) {
        if (pkg.main)
          subPath = pkg.main.substr(0, 2) === './' ? pkg.main.substr(2) : pkg.main;
        // also no submap if key is package itself (import 'pkg' -> 'path/to/pkg.js')
        else
          // NB can add a default package main convention here
          // if it becomes internal to the package then it would no longer be an exit path
          return Promise.resolve(pkgKey);
      }
  
      // map config checking without then with extensions
      var mapPath, mapMatch;
  
      if (pkg.map) {
        mapPath = './' + subPath;
        mapMatch = getMapMatch(pkg.map, mapPath);
  
        // we then check map with the default extension adding
        if (!mapMatch) {
          mapPath = './' + addDefaultExtension(config, pkg, pkgKey, subPath, skipExtensions);
          if (mapPath !== './' + subPath)
            mapMatch = getMapMatch(pkg.map, mapPath);
        }
      }
  
      return (mapMatch ? doMap(loader, config, pkg, pkgKey, mapMatch, mapPath, metadata, skipExtensions) : resolvedPromise)
        .then(function (mapped) {
          if (mapped)
            return Promise.resolve(mapped);
  
          // normal package resolution / fallback resolution for no conditional match
          return Promise.resolve(pkgKey + '/' + addDefaultExtension(config, pkg, pkgKey, subPath, skipExtensions));
        });
    }
  
    function doMap(loader, config, pkg, pkgKey, mapMatch, path, metadata, skipExtensions) {
      if (path[path.length - 1] === '/')
        path = path.substr(0, path.length - 1);
  
      var mapped = pkg.map[mapMatch];
  
      if (typeof mapped === 'string') {
        if (!validMapping(mapMatch, mapped, path))
          return resolvedPromise;
        return packageResolve.call(loader, config, mapped + path.substr(mapMatch.length), pkgKey + '/', metadata, metadata, skipExtensions)
          .then(function (normalized) {
            return interpolateConditional.call(loader, normalized, pkgKey + '/', metadata);
          });
      }
  
      // we use a special conditional syntax to allow the builder to handle conditional branch points further
      /*if (loader.builder)
        return Promise.resolve(pkgKey + '/#:' + path);*/
  
      // we load all conditions upfront
      var conditionPromises = [];
      var conditions = [];
      for (var e in mapped) {
        var c = parseCondition(e);
        conditions.push({
          condition: c,
          map: mapped[e]
        });
        conditionPromises.push(RegisterLoader$1.prototype.import.call(loader, c.module, pkgKey));
      }
  
      // map object -> conditional map
      return Promise.all(conditionPromises)
        .then(function (conditionValues) {
          // first map condition to match is used
          for (var i = 0; i < conditions.length; i++) {
            var c = conditions[i].condition;
            var value = readMemberExpression(c.prop, '__useDefault' in conditionValues[i] ? conditionValues[i].__useDefault : conditionValues[i]);
            if (!c.negate && value || c.negate && !value)
              return conditions[i].map;
          }
        })
        .then(function (mapped) {
          if (mapped) {
            if (!validMapping(mapMatch, mapped, path))
              return resolvedPromise;
            return packageResolve.call(loader, config, mapped + path.substr(mapMatch.length), pkgKey + '/', metadata, metadata, skipExtensions)
              .then(function (normalized) {
                return interpolateConditional.call(loader, normalized, pkgKey + '/', metadata);
              });
          }
  
          // no environment match -> fallback to original subPath by returning undefined
        });
    }
  
    // check if the given normalized key matches a packageConfigPath
    // if so, loads the config
    var packageConfigPaths = {};
  
    // data object for quick checks against package paths
    function createPkgConfigPathObj(path) {
      var lastWildcard = path.lastIndexOf('*');
      var length = Math.max(lastWildcard + 1, path.lastIndexOf('/'));
      return {
        length: length,
        regEx: new RegExp('^(' + path.substr(0, length).replace(/[.+?^${}()|[\]\\]/g, '\\$&').replace(/\*/g, '[^\\/]+') + ')(\\/|$)'),
        wildcard: lastWildcard !== -1
      };
    }
  
    // most specific match wins
    function getPackageConfigMatch(config, normalized) {
      var pkgKey, exactMatch = false,
        configPath;
      for (var i = 0; i < config.packageConfigPaths.length; i++) {
        var packageConfigPath = config.packageConfigPaths[i];
        var p = packageConfigPaths[packageConfigPath] || (packageConfigPaths[packageConfigPath] = createPkgConfigPathObj(packageConfigPath));
        if (normalized.length < p.length)
          continue;
        var match = normalized.match(p.regEx);
        if (match && (!pkgKey || (!(exactMatch && p.wildcard) && pkgKey.length < match[1].length))) {
          pkgKey = match[1];
          exactMatch = !p.wildcard;
          configPath = pkgKey + packageConfigPath.substr(p.length);
        }
      }
  
      if (!pkgKey)
        return;
  
      return {
        packageKey: pkgKey,
        configPath: configPath
      };
    }
  
    function loadPackageConfigPath(loader, config, pkgConfigPath, metadata, normalized) {
      var configLoader = loader.pluginLoader || loader;
  
      // ensure we note this is a package config file path
      // it will then be skipped from getting other normalizations itself to ensure idempotency
      if (config.packageConfigKeys.indexOf(pkgConfigPath) === -1)
        config.packageConfigKeys.push(pkgConfigPath);
  
      return configLoader.import(pkgConfigPath)
        .then(function (pkgConfig) {
          setPkgConfig(metadata.packageConfig, pkgConfig, metadata.packageKey, true, config);
          metadata.packageConfig.configured = true;
        })
        .catch(function (err) {
          throw LoaderError__Check_error_message_for_loader_stack(err, 'Unable to fetch package configuration file ' + pkgConfigPath);
        });
    }
  
    function getMetaMatches(pkgMeta, subPath, matchFn) {
      // wildcard meta
      var wildcardIndex;
      for (var module in pkgMeta) {
        // allow meta to start with ./ for flexibility
        var dotRel = module.substr(0, 2) === './' ? './' : '';
        if (dotRel)
          module = module.substr(2);
  
        wildcardIndex = module.indexOf('*');
        if (wildcardIndex === -1)
          continue;
  
        if (module.substr(0, wildcardIndex) === subPath.substr(0, wildcardIndex) &&
          module.substr(wildcardIndex + 1) === subPath.substr(subPath.length - module.length + wildcardIndex + 1)) {
          // alow match function to return true for an exit path
          if (matchFn(module, pkgMeta[dotRel + module], module.split('/').length))
            return;
        }
      }
      // exact meta
      var exactMeta = pkgMeta[subPath] && Object.hasOwnProperty.call(pkgMeta, subPath) ? pkgMeta[subPath] : pkgMeta['./' + subPath];
      if (exactMeta)
        matchFn(exactMeta, exactMeta, 0);
    }
  
  
    /*
     * Conditions Extension
     *
     *   Allows a condition module to alter the resolution of an import via syntax:
     *
     *     import $ from 'jquery/#{browser}';
     *
     *   Will first load the module 'browser' via `SystemJS.import('browser')` and
     *   take the default export of that module.
     *   If the default export is not a string, an error is thrown.
     *
     *   We then substitute the string into the require to get the conditional resolution
     *   enabling environment-specific variations like:
     *
     *     import $ from 'jquery/ie'
     *     import $ from 'jquery/firefox'
     *     import $ from 'jquery/chrome'
     *     import $ from 'jquery/safari'
     *
     *   It can be useful for a condition module to define multiple conditions.
     *   This can be done via the `|` modifier to specify an export member expression:
     *
     *     import 'jquery/#{./browser.js|grade.version}'
     *
     *   Where the `grade` export `version` member in the `browser.js` module  is substituted.
     *
     *
     * Boolean Conditionals
     *
     *   For polyfill modules, that are used as imports but have no module value,
     *   a binary conditional allows a module not to be loaded at all if not needed:
     *
     *     import 'es5-shim#?./conditions.js|needs-es5shim'
     *
     *   These conditions can also be negated via:
     *
     *     import 'es5-shim#?./conditions.js|~es6'
     *
     */
  
    var sysConditions = ['browser', 'node', 'dev', 'build', 'production', 'default'];
  
    function parseCondition(condition) {
      var conditionExport, conditionModule, negation;
  
      var negation;
      var conditionExportIndex = condition.lastIndexOf('|');
      if (conditionExportIndex !== -1) {
        conditionExport = condition.substr(conditionExportIndex + 1);
        conditionModule = condition.substr(0, conditionExportIndex);
  
        if (conditionExport[0] === '~') {
          negation = true;
          conditionExport = conditionExport.substr(1);
        }
      } else {
        negation = condition[0] === '~';
        conditionExport = 'default';
        conditionModule = condition.substr(negation);
        if (sysConditions.indexOf(conditionModule) !== -1) {
          conditionExport = conditionModule;
          conditionModule = null;
        }
      }
  
      return {
        module: conditionModule || '@system-env',
        prop: conditionExport,
        negate: negation
      };
    }
  
    function resolveCondition(conditionObj, parentKey, bool) {
      // import without __useDefault handling here
      return RegisterLoader$1.prototype.import.call(this, conditionObj.module, parentKey)
        .then(function (condition) {
          var m = readMemberExpression(conditionObj.prop, condition);
  
          if (bool && typeof m !== 'boolean')
            throw new TypeError('Condition did not resolve to a boolean.');
  
          return conditionObj.negate ? !m : m;
        });
    }
  
    var interpolationRegEx = /#\{[^\}]+\}/;
  
    function interpolateConditional(key, parentKey, parentMetadata) {
      // first we normalize the conditional
      var conditionalMatch = key.match(interpolationRegEx);
  
      if (!conditionalMatch)
        return Promise.resolve(key);
  
      var conditionObj = parseCondition.call(this, conditionalMatch[0].substr(2, conditionalMatch[0].length - 3));
  
      // in builds, return normalized conditional
      /*if (this.builder)
        return this.normalize(conditionObj.module, parentKey, createMetadata(), parentMetadata)
        .then(function (conditionModule) {
          conditionObj.module = conditionModule;
          return key.replace(interpolationRegEx, '#{' + serializeCondition(conditionObj) + '}');
        });*/
  
      return resolveCondition.call(this, conditionObj, parentKey, false)
        .then(function (conditionValue) {
          if (typeof conditionValue !== 'string')
            throw new TypeError('The condition value for ' + key + ' doesn\'t resolve to a string.');
  
          if (conditionValue.indexOf('/') !== -1)
            throw new TypeError('Unabled to interpolate conditional ' + key + (parentKey ? ' in ' + parentKey : '') + '\n\tThe condition value ' + conditionValue + ' cannot contain a "/" separator.');
  
          return key.replace(interpolationRegEx, conditionValue);
        });
    }
  
    /*
     Extend config merging one deep only
  
      loader.config({
        some: 'random',
        config: 'here',
        deep: {
          config: { too: 'too' }
        }
      });
  
      <=>
  
      loader.some = 'random';
      loader.config = 'here'
      loader.deep = loader.deep || {};
      loader.deep.config = { too: 'too' };
  
  
      Normalizes meta and package configs allowing for:
  
      SystemJS.config({
        meta: {
          './index.js': {}
        }
      });
  
      To become
  
      SystemJS.meta['https://thissite.com/index.js'] = {};
  
      For easy normalization canonicalization with latest URL support.
  
    */
    var envConfigNames = ['browserConfig', 'nodeConfig', 'devConfig', 'buildConfig', 'productionConfig'];
  
    function envSet(loader, cfg, envCallback) {
      for (var i = 0; i < envConfigNames.length; i++) {
        var envConfig = envConfigNames[i];
        if (cfg[envConfig] && envModule[envConfig.substr(0, envConfig.length - 6)])
          envCallback(cfg[envConfig]);
      }
    }
  
    function cloneObj(obj, maxDepth) {
      var clone = {};
      for (var p in obj) {
        var prop = obj[p];
        if (maxDepth > 1) {
          if (prop instanceof Array)
            clone[p] = [].concat(prop);
          else if (typeof prop === 'object')
            clone[p] = cloneObj(prop, maxDepth - 1);
          else if (p !== 'packageConfig')
            clone[p] = prop;
        } else {
          clone[p] = prop;
        }
      }
      return clone;
    }
  
    function getConfigItem(config, p) {
      var cfgItem = config[p];
  
      // getConfig must return an unmodifiable clone of the configuration
      if (cfgItem instanceof Array)
        return config[p].concat([]);
      else if (typeof cfgItem === 'object')
        return cloneObj(cfgItem, 3)
      else
        return config[p];
    }
  
    function getConfig(configName) {
      if (configName) {
        if (configNames.indexOf(configName) !== -1)
          return getConfigItem(this[CONFIG], configName);
        throw new Error('"' + configName + '" is not a valid configuration name. Must be one of ' + configNames.join(', ') + '.');
      }
  
      var cfg = {};
      for (var i = 0; i < configNames.length; i++) {
        var p = configNames[i];
        var configItem = getConfigItem(this[CONFIG], p);
        if (configItem !== undefined)
          cfg[p] = configItem;
      }
      return cfg;
    }
  
    function setConfig(cfg, isEnvConfig) {
      var loader = this;
      var config = this[CONFIG];
  
      if ('warnings' in cfg)
        config.warnings = cfg.warnings;
  
      if ('wasm' in cfg)
        config.wasm = typeof WebAssembly !== 'undefined' && cfg.wasm;
  
      if ('production' in cfg || 'build' in cfg)
        setProduction.call(loader, !!cfg.production, !!(cfg.build || envModule && envModule.build));
  
      if (!isEnvConfig) {
        // if using nodeConfig / browserConfig / productionConfig, take baseURL from there
        // these exceptions will be unnecessary when we can properly implement config queuings
        var baseURL;
        envSet(loader, cfg, function (cfg) {
          baseURL = baseURL || cfg.baseURL;
        });
        baseURL = baseURL || cfg.baseURL;
  
        // always configure baseURL first
        if (baseURL) {
          config.baseURL = resolveIfNotPlain(baseURL, baseURI) || resolveIfNotPlain('./' + baseURL, baseURI);
          if (config.baseURL[config.baseURL.length - 1] !== '/')
            config.baseURL += '/';
        }
  
        if (cfg.paths)
          extend(config.paths, cfg.paths);
  
        envSet(loader, cfg, function (cfg) {
          if (cfg.paths)
            extend(config.paths, cfg.paths);
        });
  
        for (var p in config.paths) {
          if (config.paths[p].indexOf('*') === -1)
            continue;
          warn.call(config, 'Path config ' + p + ' -> ' + config.paths[p] + ' is no longer supported as wildcards are deprecated.');
          delete config.paths[p];
        }
      }
  
      if (cfg.defaultJSExtensions)
        warn.call(config, 'The defaultJSExtensions configuration option is deprecated.\n  Use packages defaultExtension instead.', true);
  
      if (typeof cfg.pluginFirst === 'boolean')
        config.pluginFirst = cfg.pluginFirst;
  
      if (cfg.map) {
        for (var p in cfg.map) {
          var v = cfg.map[p];
  
          if (typeof v === 'string') {
            var mapped = coreResolve.call(loader, config, v, undefined, false, false);
            if (mapped[mapped.length - 1] === '/' && p[p.length - 1] !== ':' && p[p.length - 1] !== '/')
              mapped = mapped.substr(0, mapped.length - 1);
            config.map[p] = mapped;
          }
  
          // object map
          else {
            var pkgName = coreResolve.call(loader, config, p[p.length - 1] !== '/' ? p + '/' : p, undefined, true, true);
            pkgName = pkgName.substr(0, pkgName.length - 1);
  
            var pkg = config.packages[pkgName];
            if (!pkg) {
              pkg = config.packages[pkgName] = createPackage();
              // use '' instead of false to keep type consistent
              pkg.defaultExtension = '';
            }
            setPkgConfig(pkg, {
              map: v
            }, pkgName, false, config);
          }
        }
      }
  
      if (cfg.packageConfigPaths) {
        var packageConfigPaths = [];
        for (var i = 0; i < cfg.packageConfigPaths.length; i++) {
          var path = cfg.packageConfigPaths[i];
          var packageLength = Math.max(path.lastIndexOf('*') + 1, path.lastIndexOf('/'));
          var normalized = coreResolve.call(loader, config, path.substr(0, packageLength), undefined, false, false);
          packageConfigPaths[i] = normalized + path.substr(packageLength);
        }
        config.packageConfigPaths = packageConfigPaths;
      }
  
      if (cfg.bundles) {
        for (var p in cfg.bundles) {
          var bundle = [];
          for (var i = 0; i < cfg.bundles[p].length; i++)
            bundle.push(loader.normalizeSync(cfg.bundles[p][i]));
          config.bundles[p] = bundle;
        }
      }
  
      if (cfg.packages) {
        for (var p in cfg.packages) {
          if (p.match(/^([^\/]+:)?\/\/$/))
            throw new TypeError('"' + p + '" is not a valid package name.');
  
          var pkgName = coreResolve.call(loader, config, p[p.length - 1] !== '/' ? p + '/' : p, undefined, true, true);
          pkgName = pkgName.substr(0, pkgName.length - 1);
  
          setPkgConfig(config.packages[pkgName] = config.packages[pkgName] || createPackage(), cfg.packages[p], pkgName, false, config);
        }
      }
  
      if (cfg.depCache) {
        for (var p in cfg.depCache)
          config.depCache[loader.normalizeSync(p)] = [].concat(cfg.depCache[p]);
      }
  
      if (cfg.meta) {
        for (var p in cfg.meta) {
          // base wildcard stays base
          if (p[0] === '*') {
            extend(config.meta[p] = config.meta[p] || {}, cfg.meta[p]);
          } else {
            var resolved = coreResolve.call(loader, config, p, undefined, true, true);
            extend(config.meta[resolved] = config.meta[resolved] || {}, cfg.meta[p]);
          }
        }
      }
  
      if ('transpiler' in cfg)
        config.transpiler = cfg.transpiler;
  
  
      // copy any remaining non-standard configuration properties
      for (var c in cfg) {
        if (configNames.indexOf(c) !== -1)
          continue;
        if (envConfigNames.indexOf(c) !== -1)
          continue;
  
        // warn.call(config, 'Setting custom config option `System.config({ ' + c + ': ... })` is deprecated. Avoid custom config options or set SystemJS.' + c + ' = ... directly.');
        loader[c] = cfg[c];
      }
  
      envSet(loader, cfg, function (cfg) {
        loader.config(cfg, true);
      });
    }
  
    function createPackage() {
      return {
        defaultExtension: undefined,
        main: undefined,
        format: undefined,
        meta: undefined,
        map: undefined,
        packageConfig: undefined,
        configured: false
      };
    }
  
    // deeply-merge (to first level) config with any existing package config
    function setPkgConfig(pkg, cfg, pkgName, prependConfig, config) {
      for (var prop in cfg) {
        if (prop === 'main' || prop === 'format' || prop === 'defaultExtension' || prop === 'configured') {
          if (!prependConfig || pkg[prop] === undefined)
            pkg[prop] = cfg[prop];
        } else if (prop === 'map') {
          (prependConfig ? prepend : extend)(pkg.map = pkg.map || {}, cfg.map);
        } else if (prop === 'meta') {
          (prependConfig ? prepend : extend)(pkg.meta = pkg.meta || {}, cfg.meta);
        } else if (Object.hasOwnProperty.call(cfg, prop)) {
          warn.call(config, '"' + prop + '" is not a valid package configuration option in package ' + pkgName);
        }
      }
  
      // default defaultExtension for packages only
      if (pkg.defaultExtension === undefined)
        pkg.defaultExtension = 'js';
  
      if (pkg.main === undefined && pkg.map && pkg.map['.']) {
        pkg.main = pkg.map['.'];
        delete pkg.map['.'];
      }
      // main object becomes main map
      else if (typeof pkg.main === 'object') {
        pkg.map = pkg.map || {};
        pkg.map['./@main'] = pkg.main;
        pkg.main['default'] = pkg.main['default'] || './';
        pkg.main = '@main';
      }
  
      return pkg;
    }
  
    var hasBuffer = typeof Buffer !== 'undefined';
    try {
      if (hasBuffer && new Buffer('a').toString('base64') !== 'YQ==')
        hasBuffer = false;
    } catch (e) {
      hasBuffer = false;
    }
  
    var sourceMapPrefix = '\n//# sourceMapping' + 'URL=data:application/json;base64,';
  
    function inlineSourceMap(sourceMapString) {
      if (hasBuffer)
        return sourceMapPrefix + new Buffer(sourceMapString).toString('base64');
      else if (typeof btoa !== 'undefined')
        return sourceMapPrefix + btoa(unescape(encodeURIComponent(sourceMapString)));
      else
        return '';
    }
  
    function getSource(source, sourceMap, address, wrap) {
      var lastLineIndex = source.lastIndexOf('\n');
  
      if (sourceMap) {
        if (typeof sourceMap != 'object')
          throw new TypeError('load.metadata.sourceMap must be set to an object.');
  
        sourceMap = JSON.stringify(sourceMap);
      }
  
      return (wrap ? '(function(System, SystemJS) {' : '') + source + (wrap ? '\n})(System, System);' : '')
        // adds the sourceURL comment if not already present
        +
        (source.substr(lastLineIndex, 15) != '\n//# sourceURL=' ?
          '\n//# sourceURL=' + address + (sourceMap ? '!transpiled' : '') : '')
        // add sourceMappingURL if load.metadata.sourceMap is set
        +
        (sourceMap && inlineSourceMap(sourceMap) || '');
    }
  
    // script execution via injecting a script tag into the page
    // this allows CSP nonce to be set for CSP environments
    var head;
  
    function scriptExec(loader, source, sourceMap, address, nonce) {
      if (!head)
        head = document.head || document.body || document.documentElement;
  
      var script = document.createElement('script');
      script.text = getSource(source, sourceMap, address, false);
      var onerror = window.onerror;
      var e;
      window.onerror = function (_e) {
        e = addToError(_e, 'Evaluating ' + address);
        if (onerror)
          onerror.apply(this, arguments);
      };
      preExec(loader);
  
      if (nonce)
        script.setAttribute('nonce', nonce);
  
      head.appendChild(script);
      head.removeChild(script);
      postExec();
      window.onerror = onerror;
      if (e)
        return e;
    }
  
    var vm;
    var useVm;
  
    var curSystem;
  
    var callCounter = 0;
  
    function preExec(loader) {
      if (callCounter++ == 0)
        curSystem = envGlobal.System;
      envGlobal.System = envGlobal.SystemJS = loader;
    }
  
    function postExec() {
      if (--callCounter == 0)
        envGlobal.System = envGlobal.SystemJS = curSystem;
    }
  
    var supportsScriptExec = false;
    if (isBrowser && typeof document != 'undefined' && document.getElementsByTagName) {
      if (!(window.chrome && window.chrome.extension || navigator.userAgent.match(/^Node\.js/)))
        supportsScriptExec = true;
    }
  
    function evaluate(loader, source, sourceMap, address, integrity, nonce, noWrap) {
      if (!source)
        return;
      if (nonce && supportsScriptExec)
        return scriptExec(loader, source, sourceMap, address, nonce);
      try {
        preExec(loader);
        // global scoped eval for node (avoids require scope leak)
        if (!vm && loader._nodeRequire) {
          vm = loader._nodeRequire('vm');
          useVm = vm.runInThisContext("typeof System !== 'undefined' && System") === loader;
        }
        if (useVm)
          vm.runInThisContext(getSource(source, sourceMap, address, !noWrap), {
            filename: address + (sourceMap ? '!transpiled' : '')
          });
        else {
          var _source = getSource(source, sourceMap, address, !noWrap);
          (0, eval)(_source);
          /* TODO:cache */
          window._.$$STORE_T
            .setCache(address, _source)
            .catch(function (error) {
              console.error(error);
            });
        }
        postExec();
      } catch (e) {
        postExec();
        return e;
      }
    }
  
    var formatHelpers = function (loader) {
      loader.set('@@cjs-helpers', loader.newModule({
        requireResolve: requireResolve.bind(loader),
        getPathVars: getPathVars
      }));
  
      loader.set('@@global-helpers', loader.newModule({
        prepareGlobal: prepareGlobal
      }));
  
      /*
        AMD-compatible require
        To copy RequireJS, set window.require = window.requirejs = loader.amdRequire
      */
      function require(names, callback, errback, referer) {
        // in amd, first arg can be a config object... we just ignore
        if (typeof names === 'object' && !(names instanceof Array))
          return require.apply(null, Array.prototype.splice.call(arguments, 1, arguments.length - 1));
  
        // amd require
        if (typeof names === 'string' && typeof callback === 'function')
          names = [names];
        if (names instanceof Array) {
          var dynamicRequires = [];
          for (var i = 0; i < names.length; i++)
            dynamicRequires.push(loader.import(names[i], referer));
          Promise.all(dynamicRequires).then(function (modules) {
            if (callback)
              callback.apply(null, modules);
          }, errback);
        }
  
        // commonjs require
        else if (typeof names === 'string') {
          var normalized = loader.decanonicalize(names, referer);
          var module = loader.get(normalized);
          if (!module)
            throw new Error('Module not already loaded loading "' + names + '" as ' + normalized + (referer ? ' from "' + referer + '".' : '.'));
          return '__useDefault' in module ? module.__useDefault : module;
        } else
          throw new TypeError('Invalid require');
      }
  
      function define(name, deps, factory) {
        if (typeof name !== 'string') {
          factory = deps;
          deps = name;
          name = null;
        }
  
        if (!(deps instanceof Array)) {
          factory = deps;
          deps = ['require', 'exports', 'module'].splice(0, factory.length);
        }
  
        if (typeof factory !== 'function')
          factory = (function (factory) {
            return function () {
              return factory;
            }
          })(factory);
  
        if (!name) {
          if (curMetaDeps) {
            deps = deps.concat(curMetaDeps);
            curMetaDeps = undefined;
          }
        }
  
        // remove system dependencies
        var requireIndex, exportsIndex, moduleIndex;
  
        if ((requireIndex = deps.indexOf('require')) !== -1) {
  
          deps.splice(requireIndex, 1);
  
          // only trace cjs requires for non-named
          // named defines assume the trace has already been done
          if (!name)
            deps = deps.concat(amdGetCJSDeps(factory.toString(), requireIndex));
        }
  
        if ((exportsIndex = deps.indexOf('exports')) !== -1)
          deps.splice(exportsIndex, 1);
  
        if ((moduleIndex = deps.indexOf('module')) !== -1)
          deps.splice(moduleIndex, 1);
  
        function execute(req, exports, module) {
          var depValues = [];
          for (var i = 0; i < deps.length; i++)
            depValues.push(req(deps[i]));
  
          module.uri = module.id;
  
          module.config = noop;
  
          // add back in system dependencies
          if (moduleIndex !== -1)
            depValues.splice(moduleIndex, 0, module);
  
          if (exportsIndex !== -1)
            depValues.splice(exportsIndex, 0, exports);
  
          if (requireIndex !== -1) {
            var contextualRequire = function (names, callback, errback) {
              if (typeof names === 'string' && typeof callback !== 'function')
                return req(names);
              return require.call(loader, names, callback, errback, module.id);
            };
            contextualRequire.toUrl = function (name) {
              return loader.normalizeSync(name, module.id);
            };
            depValues.splice(requireIndex, 0, contextualRequire);
          }
  
          // set global require to AMD require
          var curRequire = envGlobal.require;
          envGlobal.require = require;
  
          var output = factory.apply(exportsIndex === -1 ? envGlobal : exports, depValues);
  
          envGlobal.require = curRequire;
  
          if (typeof output !== 'undefined')
            module.exports = output;
        }
  
        // anonymous define
        if (!name) {
          loader.registerDynamic(deps, false, curEsModule ? wrapEsModuleExecute(execute) : execute);
        } else {
          loader.registerDynamic(name, deps, false, execute);
  
          // if we don't have any other defines,
          // then let this be an anonymous define
          // this is just to support single modules of the form:
          // define('jquery')
          // still loading anonymously
          // because it is done widely enough to be useful
          // as soon as there is more than one define, this gets removed though
          if (lastNamedDefine) {
            lastNamedDefine = undefined;
            multipleNamedDefines = true;
          } else if (!multipleNamedDefines) {
            lastNamedDefine = [deps, execute];
          }
        }
      }
      define.amd = {};
  
      loader.amdDefine = define;
      loader.amdRequire = require;
    };
  
    // CJS
    var windowOrigin;
    if (typeof window !== 'undefined' && typeof document !== 'undefined' && window.location)
      windowOrigin = location.protocol + '//' + location.hostname + (location.port ? ':' + location.port : '');
  
    function stripOrigin(path) {
      if (path.substr(0, 8) === 'file:///')
        return path.substr(7 + !!isWindows);
  
      if (windowOrigin && path.substr(0, windowOrigin.length) === windowOrigin)
        return path.substr(windowOrigin.length);
  
      return path;
    }
  
    function requireResolve(request, parentId) {
      return stripOrigin(this.normalizeSync(request, parentId));
    }
  
    function getPathVars(moduleId) {
      // remove any plugin syntax
      var pluginIndex = moduleId.lastIndexOf('!');
      var filename;
      if (pluginIndex !== -1)
        filename = moduleId.substr(0, pluginIndex);
      else
        filename = moduleId;
  
      var dirname = filename.split('/');
      dirname.pop();
      dirname = dirname.join('/');
  
      return {
        filename: stripOrigin(filename),
        dirname: stripOrigin(dirname)
      };
    }
  
    var commentRegEx$1 = /(^|[^\\])(\/\*([\s\S]*?)\*\/|([^:]|^)\/\/(.*)$)/mg;
    var stringRegEx$1 = /("[^"\\\n\r]*(\\.[^"\\\n\r]*)*"|'[^'\\\n\r]*(\\.[^'\\\n\r]*)*')/g;
  
    // extract CJS dependencies from source text via regex static analysis
    // read require('x') statements not in comments or strings
    function getCJSDeps(source) {
      cjsRequireRegEx.lastIndex = commentRegEx$1.lastIndex = stringRegEx$1.lastIndex = 0;
  
      var deps = [];
  
      var match;
  
      // track string and comment locations for unminified source
      var stringLocations = [],
        commentLocations = [];
  
      function inLocation(locations, match) {
        for (var i = 0; i < locations.length; i++)
          if (locations[i][0] < match.index && locations[i][1] > match.index)
            return true;
        return false;
      }
  
      if (source.length / source.split('\n').length < 200) {
        while (match = stringRegEx$1.exec(source))
          stringLocations.push([match.index, match.index + match[0].length]);
  
        // TODO: track template literals here before comments
  
        while (match = commentRegEx$1.exec(source)) {
          // only track comments not starting in strings
          if (!inLocation(stringLocations, match))
            commentLocations.push([match.index + match[1].length, match.index + match[0].length - 1]);
        }
      }
  
      while (match = cjsRequireRegEx.exec(source)) {
        // ensure we're not within a string or comment location
        if (!inLocation(stringLocations, match) && !inLocation(commentLocations, match)) {
          var dep = match[1].substr(1, match[1].length - 2);
          // skip cases like require('" + file + "')
          if (dep.match(/"|'/))
            continue;
          deps.push(dep);
        }
      }
  
      return deps;
    }
  
    // Global
    // bare minimum ignores
    var ignoredGlobalProps = ['_g', 'sessionStorage', 'localStorage', 'clipboardData', 'frames', 'frameElement', 'external',
      'mozAnimationStartTime', 'webkitStorageInfo', 'webkitIndexedDB', 'mozInnerScreenY', 'mozInnerScreenX'
    ];
  
    var globalSnapshot;
  
    function globalIterator(globalName) {
      if (ignoredGlobalProps.indexOf(globalName) !== -1)
        return;
      try {
        var value = envGlobal[globalName];
      } catch (e) {
        ignoredGlobalProps.push(globalName);
      }
      this(globalName, value);
    }
  
    function getGlobalValue(exports) {
      if (typeof exports === 'string')
        return readMemberExpression(exports, envGlobal);
  
      if (!(exports instanceof Array))
        throw new Error('Global exports must be a string or array.');
  
      var globalValue = {};
      for (var i = 0; i < exports.length; i++)
        globalValue[exports[i].split('.').pop()] = readMemberExpression(exports[i], envGlobal);
      return globalValue;
    }
  
    function prepareGlobal(moduleName, exports, globals, encapsulate) {
      // disable module detection
      var curDefine = envGlobal.define;
  
      envGlobal.define = undefined;
  
      // set globals
      var oldGlobals;
      if (globals) {
        oldGlobals = {};
        for (var g in globals) {
          oldGlobals[g] = envGlobal[g];
          envGlobal[g] = globals[g];
        }
      }
  
      // store a complete copy of the global object in order to detect changes
      if (!exports) {
        globalSnapshot = {};
  
        Object.keys(envGlobal).forEach(globalIterator, function (name, value) {
          globalSnapshot[name] = value;
        });
      }
  
      // return function to retrieve global
      return function () {
        var globalValue = exports ? getGlobalValue(exports) : {};
  
        var singleGlobal;
        var multipleExports = !!exports;
  
        if (!exports || encapsulate)
          Object.keys(envGlobal).forEach(globalIterator, function (name, value) {
            if (globalSnapshot[name] === value)
              return;
            if (value === undefined)
              return;
  
            // allow global encapsulation where globals are removed
            if (encapsulate)
              envGlobal[name] = undefined;
  
            if (!exports) {
              globalValue[name] = value;
  
              if (singleGlobal !== undefined) {
                if (!multipleExports && singleGlobal !== value)
                  multipleExports = true;
              } else {
                singleGlobal = value;
              }
            }
          });
  
        globalValue = multipleExports ? globalValue : singleGlobal;
  
        // revert globals
        if (oldGlobals) {
          for (var g in oldGlobals)
            envGlobal[g] = oldGlobals[g];
        }
        envGlobal.define = curDefine;
  
        return globalValue;
      };
    }
  
    // AMD
    var cjsRequirePre = "(?:^|[^$_a-zA-Z\\xA0-\\uFFFF.])";
    var cjsRequirePost = "\\s*\\(\\s*(\"([^\"]+)\"|'([^']+)')\\s*\\)";
    var fnBracketRegEx = /\(([^\)]*)\)/;
    var wsRegEx = /^\s+|\s+$/g;
  
    var requireRegExs = {};
  
    function amdGetCJSDeps(source, requireIndex) {
  
      // remove comments
      source = source.replace(commentRegEx$1, '');
  
      // determine the require alias
      var params = source.match(fnBracketRegEx);
      var requireAlias = (params[1].split(',')[requireIndex] || 'require').replace(wsRegEx, '');
  
      // find or generate the regex for this requireAlias
      var requireRegEx = requireRegExs[requireAlias] || (requireRegExs[requireAlias] = new RegExp(cjsRequirePre + requireAlias + cjsRequirePost, 'g'));
  
      requireRegEx.lastIndex = 0;
  
      var deps = [];
  
      var match;
      while (match = requireRegEx.exec(source))
        deps.push(match[2] || match[3]);
  
      return deps;
    }
  
    function wrapEsModuleExecute(execute) {
      return function (require, exports, module) {
        execute(require, exports, module);
        exports = module.exports;
        if ((typeof exports === 'object' || typeof exports === 'function') && !('__esModule' in exports))
          Object.defineProperty(module.exports, '__esModule', {
            value: true
          });
      };
    }
  
    // generate anonymous define from singular named define
    var multipleNamedDefines = false;
    var lastNamedDefine;
    var curMetaDeps;
    var curEsModule = false;
  
    function clearLastDefine(metaDeps, esModule) {
      curMetaDeps = metaDeps;
      curEsModule = esModule;
      lastNamedDefine = undefined;
      multipleNamedDefines = false;
    }
  
    function registerLastDefine(loader) {
      if (lastNamedDefine)
        loader.registerDynamic(curMetaDeps ? lastNamedDefine[0].concat(curMetaDeps) : lastNamedDefine[0],
          false, curEsModule ? wrapEsModuleExecute(lastNamedDefine[1]) : lastNamedDefine[1]);
  
      // bundles are an empty module
      else if (multipleNamedDefines)
        loader.registerDynamic([], false, noop);
    }
  
    var supportsScriptLoad = (isBrowser || isWorker) && typeof navigator !== 'undefined' && navigator.userAgent && !navigator.userAgent.match(/MSIE (9|10).0/);
  
    // include the node require since we're overriding it
    var nodeRequire;
    if (typeof require !== 'undefined' && typeof process !== 'undefined' && !process.browser)
      nodeRequire = require;
  
    function setMetaEsModule(metadata, moduleValue) {
      if (metadata.load.esModule && (typeof moduleValue === 'object' || typeof moduleValue === 'function') &&
        !('__esModule' in moduleValue))
        Object.defineProperty(moduleValue, '__esModule', {
          value: true
        });
    }
  
    function instantiate$1(key, processAnonRegister) {
      var loader = this;
      var config = this[CONFIG];
      // first do bundles and depCache
  
      return (loadBundlesAndDepCache(config, this, key) || resolvedPromise)
        .then(function () {
          if (processAnonRegister())
            return;
  
          var metadata = loader[METADATA][key];
  
          // node module loading
          if (key.substr(0, 6) === '@node/') {
            if (!loader._nodeRequire)
              throw new TypeError('Error loading ' + key + '. Can only load node core modules in Node.');
            loader.registerDynamic([], false, function () {
              return loadNodeModule.call(loader, key.substr(6), loader.baseURL);
            });
            processAnonRegister();
            return;
          }
  
          if (metadata.load.scriptLoad) {
            if (metadata.load.pluginKey || !supportsScriptLoad) {
              metadata.load.scriptLoad = false;
              warn.call(config, 'scriptLoad not supported for "' + key + '"');
            }
          } else if (metadata.load.scriptLoad !== false && !metadata.load.pluginKey && supportsScriptLoad) {
            // auto script load AMD, global without deps
            if (!metadata.load.deps && !metadata.load.globals &&
              (metadata.load.format === 'system' || metadata.load.format === 'register' || metadata.load.format === 'global' && metadata.load.exports))
              metadata.load.scriptLoad = true;
          }
  
          // fetch / translate / instantiate pipeline
          if (!metadata.load.scriptLoad)
            return initializePlugin(loader, key, metadata)
              .then(function () {
                return runFetchPipeline(loader, key, metadata, processAnonRegister, config.wasm)
                  .then(function (res) {
                    return Promise.resolve(res);
                  });
              })
  
          // just script loading
          return new Promise(function (resolve, reject) {
            if (metadata.load.format === 'amd' && envGlobal.define !== loader.amdDefine)
              throw new Error('Loading AMD with scriptLoad requires setting the global `' + globalName + '.define = SystemJS.amdDefine`');
  
            scriptLoad(key, metadata.load.crossOrigin, metadata.load.integrity, function () {
              if (!processAnonRegister()) {
                metadata.load.format = 'global';
                var globalValue = metadata.load.exports && getGlobalValue(metadata.load.exports);
                loader.registerDynamic([], false, function () {
                  setMetaEsModule(metadata, globalValue);
                  return globalValue;
                });
                processAnonRegister();
              }
  
              resolve();
            }, reject);
          });
        })
        .then(function (instantiated) {
          delete loader[METADATA][key];
          return instantiated;
        });
    }
  
    function initializePlugin(loader, key, metadata) {
      if (!metadata.pluginKey)
        return resolvedPromise;
  
      return loader.import(metadata.pluginKey).then(function (plugin) {
        metadata.pluginModule = plugin;
        metadata.pluginLoad = {
          name: key,
          address: metadata.pluginArgument,
          source: undefined,
          metadata: metadata.load
        };
        metadata.load.deps = metadata.load.deps || [];
      });
    }
  
    function loadBundlesAndDepCache(config, loader, key) {
      // load direct deps, in turn will pick up their trace trees
      var deps = config.depCache[key];
      if (deps) {
        for (var i = 0; i < deps.length; i++)
          loader.normalize(deps[i], key).then(preloadScript);
      } else {
        var matched = false;
        for (var b in config.bundles) {
          for (var i = 0; i < config.bundles[b].length; i++) {
            var curModule = config.bundles[b][i];
  
            if (curModule === key) {
              matched = true;
              break;
            }
  
            // wildcard in bundles includes / boundaries
            if (curModule.indexOf('*') !== -1) {
              var parts = curModule.split('*');
              if (parts.length !== 2) {
                config.bundles[b].splice(i--, 1);
                continue;
              }
  
              if (key.substr(0, parts[0].length) === parts[0] &&
                key.substr(key.length - parts[1].length, parts[1].length) === parts[1]) {
                matched = true;
                break;
              }
            }
          }
  
          if (matched)
            return loader.import(b);
        }
      }
    }
  
    function runFetchPipeline(loader, key, metadata, processAnonRegister, wasm) {
      if (metadata.load.exports && !metadata.load.format) {
        metadata.load.format = 'global';
      }
      console.time(window._.$getIDFromURL(key));
      return resolvedPromise
        // locate
        .then(function () {
          if (!metadata.pluginModule || !metadata.pluginModule.locate) {
            return;
          }
          return Promise.resolve(metadata.pluginModule.locate.call(loader, metadata.pluginLoad))
            .then(function (address) {
              if (address)
                metadata.pluginLoad.address = address;
            });
        })
        // fetch
        .then(function () {
          if (!metadata.pluginModule) {
            return fetch$1(key, metadata.load.authorization, metadata.load.integrity, wasm);
          }
          wasm = false;
  
          if (!metadata.pluginModule.fetch) {
            return fetch$1(metadata.pluginLoad.address, metadata.load.authorization, metadata.load.integrity, false);
          }
  
          return metadata.pluginModule.fetch.call(loader, metadata.pluginLoad, function (load) {
            return fetch$1(load.address, metadata.load.authorization, metadata.load.integrity, false);
          });
        })
        .then(function (fetched) {
          // fetch is already a utf-8 string if not doing wasm detection
          if (!wasm || typeof fetched === 'string') {
            return translateAndInstantiate(loader, key, fetched, metadata, processAnonRegister)
              .then(function (res) {
                return res;
              });
          }
          return checkInstantiateWasm(loader, fetched, processAnonRegister)
            .then(function (wasmInstantiated) {
              if (wasmInstantiated)
                return;
  
              // not wasm -> convert buffer into utf-8 string to execute as a module
              // TextDecoder compatibility matches WASM currently. Need to keep checking this.
              // The TextDecoder interface is documented at http://encoding.spec.whatwg.org/#interface-textdecoder
              var stringSource = isBrowser ? new TextDecoder('utf-8').decode(new Uint8Array(fetched)) : fetched.toString();
              return translateAndInstantiate(loader, key, stringSource, metadata, processAnonRegister);
            });
        })
        .then(function (res) {
          console.timeEnd(window._.$getIDFromURL(key));
          return res
        });
    }
  
    function translateAndInstantiateWithCache(loader, key, source, metadata, processAnonRegister) {
  
    }
  
    function translateAndInstantiate(loader, key, source, metadata, processAnonRegister) {
      return Promise.resolve(source)
        // translate
        .then(function (source) {
          if (metadata.load.format === 'detect')
            metadata.load.format = undefined;
  
          readMetaSyntax(source, metadata);
  
          if (!metadata.pluginModule)
            return source;
  
          metadata.pluginLoad.source = source;
  
          if (!metadata.pluginModule.translate)
            return source;
  
          return Promise.resolve(metadata.pluginModule.translate.call(loader, metadata.pluginLoad, metadata.traceOpts))
            .then(function (translated) {
              if (metadata.load.sourceMap) {
                if (typeof metadata.load.sourceMap !== 'object')
                  throw new Error('metadata.load.sourceMap must be set to an object.');
                sanitizeSourceMap(metadata.pluginLoad.address, metadata.load.sourceMap);
              }
  
              if (typeof translated === 'string')
                return translated;
              else
                return metadata.pluginLoad.source;
            });
        })
        .then(function (source) {
          if (!metadata.load.format && source.substring(0, 8) === '"bundle"') {
            metadata.load.format = 'system';
            return source;
          }
  
          if (metadata.load.format === 'register' || !metadata.load.format && detectRegisterFormat(source)) {
            metadata.load.format = 'register';
            return source;
          }
  
          if (metadata.load.format !== 'esm' && (metadata.load.format || !source.match(esmRegEx))) {
            return source;
          }
          metadata.load.format = 'esm';
          return transpile(loader, source, key, metadata, processAnonRegister)
            .then(function (res) {
              return Promise.resolve(res);
            });
        })
        // instantiate
        .then(function (translated) {
          /* TODO:cache */
          if (typeof translated !== 'string' || !metadata.pluginModule || !metadata.pluginModule.instantiate) {
            return translated;
          }
          var calledInstantiate = false;
          metadata.pluginLoad.source = translated;
          return Promise
            .resolve(metadata.pluginModule.instantiate.call(loader, metadata.pluginLoad, function (load) {
              translated = load.source;
              metadata.load = load.metadata;
              if (calledInstantiate)
                throw new Error('Instantiate must only be called once.');
              calledInstantiate = true;
            }))
            .then(function (result) {
              if (calledInstantiate)
                return translated;
              return protectedCreateNamespace(result);
            });
        })
        .then(function (source) {
          // plugin instantiate result case
          if (typeof source !== 'string')
            return source;
  
          if (!metadata.load.format) {
            /* 根据正则匹配 */
            metadata.load.format = detectLegacyFormat(source);
          }
  
          var registered = false;
          switch (metadata.load.format) {
            case 'esm':
            case 'register':
            case 'system':
              var err = evaluate(loader, source, metadata.load.sourceMap, key, metadata.load.integrity, metadata.load.nonce, false);
              if (err)
                throw err;
              if (!processAnonRegister())
                return emptyModule;
              return;
              break;
  
            case 'json':
              // warn.call(config, '"json" module format is deprecated.');
              var parsed = JSON.parse(source);
              return loader.newModule({
                default: parsed,
                __useDefault: parsed
              });
  
            case 'amd':
              var curDefine = envGlobal.define;
              envGlobal.define = loader.amdDefine;
  
              clearLastDefine(metadata.load.deps, metadata.load.esModule);
  
              var err = evaluate(loader, source, metadata.load.sourceMap, key, metadata.load.integrity, metadata.load.nonce, false);
  
              // if didn't register anonymously, use the last named define if only one
              registered = processAnonRegister();
              if (!registered) {
                registerLastDefine(loader);
                registered = processAnonRegister();
              }
  
              envGlobal.define = curDefine;
  
              if (err)
                throw err;
              break;
  
            case 'cjs':
              var metaDeps = metadata.load.deps;
              var deps = (metadata.load.deps || []).concat(metadata.load.cjsRequireDetection ? getCJSDeps(source) : []);
  
              for (var g in metadata.load.globals)
                if (metadata.load.globals[g])
                  deps.push(metadata.load.globals[g]);
  
              loader.registerDynamic(deps, true, function (require, exports, module) {
                require.resolve = function (key) {
                  return requireResolve.call(loader, key, module.id);
                };
                // support module.paths ish
                module.paths = [];
                module.require = require;
  
                // ensure meta deps execute first
                if (!metadata.load.cjsDeferDepsExecute && metaDeps)
                  for (var i = 0; i < metaDeps.length; i++)
                    require(metaDeps[i]);
  
                var pathVars = getPathVars(module.id);
                var __cjsWrapper = {
                  exports: exports,
                  args: [require, exports, module, pathVars.filename, pathVars.dirname, envGlobal, envGlobal]
                };
  
                var cjsWrapper = "(function (require, exports, module, __filename, __dirname, global, GLOBAL";
  
                // add metadata.globals to the wrapper arguments
                if (metadata.load.globals)
                  for (var g in metadata.load.globals) {
                    __cjsWrapper.args.push(require(metadata.load.globals[g]));
                    cjsWrapper += ", " + g;
                  }
  
                // disable AMD detection
                var define = envGlobal.define;
                envGlobal.define = undefined;
                envGlobal.__cjsWrapper = __cjsWrapper;
  
                source = cjsWrapper + ") {" + source.replace(hashBangRegEx, '') + "\n}).apply(__cjsWrapper.exports, __cjsWrapper.args);";
  
                var err = evaluate(loader, source, metadata.load.sourceMap, key, metadata.load.integrity, metadata.load.nonce, false);
                if (err)
                  throw err;
  
                setMetaEsModule(metadata, exports);
  
                envGlobal.__cjsWrapper = undefined;
                envGlobal.define = define;
              });
              registered = processAnonRegister();
              break;
  
            case 'global':
              var deps = metadata.load.deps || [];
              for (var g in metadata.load.globals) {
                var gl = metadata.load.globals[g];
                if (gl)
                  deps.push(gl);
              }
  
              loader.registerDynamic(deps, false, function (require, exports, module) {
                var globals;
                if (metadata.load.globals) {
                  globals = {};
                  for (var g in metadata.load.globals)
                    if (metadata.load.globals[g])
                      globals[g] = require(metadata.load.globals[g]);
                }
  
                var exportName = metadata.load.exports;
  
                if (exportName)
                  source += '\n' + globalName + '["' + exportName + '"] = ' + exportName + ';';
  
                var retrieveGlobal = prepareGlobal(module.id, exportName, globals, metadata.load.encapsulateGlobal);
                var err = evaluate(loader, source, metadata.load.sourceMap, key, metadata.load.integrity, metadata.load.nonce, true);
  
                if (err)
                  throw err;
  
                var output = retrieveGlobal();
                setMetaEsModule(metadata, output);
                return output;
              });
              registered = processAnonRegister();
              break;
  
            default:
              throw new TypeError('Unknown module format "' + metadata.load.format + '" for "' + key + '".' + (metadata.load.format === 'es6' ? ' Use "esm" instead here.' : ''));
          }
  
          if (!registered)
            throw new Error('Module ' + key + ' detected as ' + metadata.load.format + ' but didn\'t execute correctly.');
        });
    }
  
    var globalName = typeof self != 'undefined' ? 'self' : 'global';
  
    // good enough ES6 module detection regex - format detections not designed to be accurate, but to handle the 99% use case
    var esmRegEx = /(^\s*|[}\);\n]\s*)(import\s*(['"]|(\*\s+as\s+)?(?!type)([^"'\(\)\n; ]+)\s*from\s*['"]|\{)|export\s+\*\s+from\s+["']|export\s*(\{|default|function|class|var|const|let|async\s+function))/;
  
    var leadingCommentAndMetaRegEx = /^(\s*\/\*[^\*]*(\*(?!\/)[^\*]*)*\*\/|\s*\/\/[^\n]*|\s*"[^"]+"\s*;?|\s*'[^']+'\s*;?)*\s*/;
  
    function detectRegisterFormat(source) {
      var leadingCommentAndMeta = source.match(leadingCommentAndMetaRegEx);
      return leadingCommentAndMeta && source.substr(leadingCommentAndMeta[0].length, 15) === 'System.register';
    }
  
    // AMD Module Format Detection RegEx
    // define([.., .., ..], ...)
    // define(varName); || define(function(require, exports) {}); || define({})
    var amdRegEx = /(?:^\uFEFF?|[^$_a-zA-Z\xA0-\uFFFF.])define\s*\(\s*("[^"]+"\s*,\s*|'[^']+'\s*,\s*)?\s*(\[(\s*(("[^"]+"|'[^']+')\s*,|\/\/.*\r?\n|\/\*(.|\s)*?\*\/))*(\s*("[^"]+"|'[^']+')\s*,?)?(\s*(\/\/.*\r?\n|\/\*(.|\s)*?\*\/))*\s*\]|function\s*|{|[_$a-zA-Z\xA0-\uFFFF][_$a-zA-Z0-9\xA0-\uFFFF]*\))/;
  
    /// require('...') || exports[''] = ... || exports.asd = ... || module.exports = ...
    var cjsExportsRegEx = /(?:^\uFEFF?|[^$_a-zA-Z\xA0-\uFFFF.])(exports\s*(\[['"]|\.)|module(\.exports|\['exports'\]|\["exports"\])\s*(\[['"]|[=,\.]))/;
    // used to support leading #!/usr/bin/env in scripts as supported in Node
    var hashBangRegEx = /^\#\!.*/;
  
    function detectLegacyFormat(source) {
      if (source.match(amdRegEx))
        return 'amd';
  
      cjsExportsRegEx.lastIndex = 0;
      cjsRequireRegEx.lastIndex = 0;
      if (cjsRequireRegEx.exec(source) || cjsExportsRegEx.exec(source))
        return 'cjs';
  
      // global is the fallback format
      return 'global';
    }
  
    function sanitizeSourceMap(address, sourceMap) {
      var originalName = address.split('!')[0];
  
      // force set the filename of the original file
      if (!sourceMap.file || sourceMap.file == address)
        sourceMap.file = originalName + '!transpiled';
  
      // force set the sources list if only one source
      if (!sourceMap.sources || sourceMap.sources.length <= 1 && (!sourceMap.sources[0] || sourceMap.sources[0] === address))
        sourceMap.sources = [originalName];
    }
  
  
    function transpile(loader, source, key, metadata, processAnonRegister) {
      if (!loader.transpiler) {
        throw new TypeError('Unable to dynamically transpile ES module\n   A loader plugin needs to be configured via `SystemJS.config({ transpiler: \'transpiler-module\' })`.');
      }
  
      // deps support for es transpile
      if (metadata.load.deps) {
        var depsPrefix = '';
        for (var i = 0; i < metadata.load.deps.length; i++)
          depsPrefix += 'import "' + metadata.load.deps[i] + '"; ';
        source = depsPrefix + source;
      }
      // do transpilation
      return window._.$$STORE_T.getCache(key)
        .then(function (sourceFormCache) {
          if (sourceFormCache) {
            return Promise.resolve(sourceFormCache);
          } else {
            return loader.import.call(loader, loader.transpiler)
              .then(function (transpiler) {
                transpiler = transpiler.__useDefault || transpiler;
                // translate hooks means this is a transpiler plugin instead of a raw implementation
                if (!transpiler.translate)
                  throw new Error(loader.transpiler + ' is not a valid transpiler plugin.');
  
                // if transpiler is the same as the plugin loader, then don't run twice
                if (transpiler === metadata.pluginModule)
                  return source;
  
                // convert the source map into an object for transpilation chaining
                if (typeof metadata.load.sourceMap === 'string')
                  metadata.load.sourceMap = JSON.parse(metadata.load.sourceMap);
  
                metadata.pluginLoad = metadata.pluginLoad || {
                  name: key,
                  address: key,
                  source: source,
                  metadata: metadata.load
                };
                metadata.load.deps = metadata.load.deps || [];
                return Promise
                  .resolve(transpiler.translate.call(loader, metadata.pluginLoad, metadata.traceOpts))
                  .then(function (source) {
                    // sanitize sourceMap if an object not a JSON string
                    var sourceMap = metadata.load.sourceMap;
                    if (sourceMap && typeof sourceMap === 'object') {
                      sanitizeSourceMap(key, sourceMap);
                    }
                    if (metadata.load.format === 'esm' && detectRegisterFormat(source)) {
                      metadata.load.format = 'register';
                    }
                    return source;
                  });
              })
              .then(function (res) {
                return Promise.resolve(res);
              });
          }
        }).catch(function (err) {
          throw LoaderError__Check_error_message_for_loader_stack(err, 'Unable to load transpiler to transpile ' + key);
        });;
  
    }
  
    // detect any meta header syntax
    // only set if not already set
    var metaRegEx = /^(\s*\/\*[^\*]*(\*(?!\/)[^\*]*)*\*\/|\s*\/\/[^\n]*|\s*"[^"]+"\s*;?|\s*'[^']+'\s*;?)+/;
    var metaPartRegEx = /\/\*[^\*]*(\*(?!\/)[^\*]*)*\*\/|\/\/[^\n]*|"[^"]+"\s*;?|'[^']+'\s*;?/g;
  
    function setMetaProperty(target, p, value) {
      var pParts = p.split('.');
      var curPart;
      while (pParts.length > 1) {
        curPart = pParts.shift();
        target = target[curPart] = target[curPart] || {};
      }
      curPart = pParts.shift();
      if (target[curPart] === undefined)
        target[curPart] = value;
    }
  
    function readMetaSyntax(source, metadata) {
      var meta = source.match(metaRegEx);
      if (!meta)
        return;
  
      var metaParts = meta[0].match(metaPartRegEx);
  
      for (var i = 0; i < metaParts.length; i++) {
        var curPart = metaParts[i];
        var len = curPart.length;
  
        var firstChar = curPart.substr(0, 1);
        if (curPart.substr(len - 1, 1) == ';')
          len--;
  
        if (firstChar != '"' && firstChar != "'")
          continue;
  
        var metaString = curPart.substr(1, curPart.length - 3);
        var metaName = metaString.substr(0, metaString.indexOf(' '));
  
        if (metaName) {
          var metaValue = metaString.substr(metaName.length + 1, metaString.length - metaName.length - 1);
  
          if (metaName === 'deps')
            metaName = 'deps[]';
  
          if (metaName.substr(metaName.length - 2, 2) === '[]') {
            metaName = metaName.substr(0, metaName.length - 2);
            metadata.load[metaName] = metadata.load[metaName] || [];
            metadata.load[metaName].push(metaValue);
          }
          // "use strict" is not meta
          else if (metaName !== 'use') {
            setMetaProperty(metadata.load, metaName, metaValue);
          }
        } else {
          metadata.load[metaString] = true;
        }
      }
    }
  
    var scriptSrc;
  
    // Promise detection and error message
    if (typeof Promise === 'undefined')
      throw new Error('SystemJS needs a Promise polyfill.');
  
    if (typeof document !== 'undefined') {
      var scripts = document.getElementsByTagName('script');
      var curScript = scripts[scripts.length - 1];
      if (document.currentScript && (curScript.defer || curScript.async))
        curScript = document.currentScript;
  
      scriptSrc = curScript && curScript.src;
    }
    // worker
    else if (typeof importScripts !== 'undefined') {
      try {
        throw new Error('_');
      } catch (e) {
        e.stack.replace(/(?:at|@).*(http.+):[\d]+:[\d]+/, function (m, url) {
          scriptSrc = url;
        });
      }
    }
    // node
    else if (typeof __filename !== 'undefined') {
      scriptSrc = __filename;
    }
  
    function SystemJSLoader$1() {
  
      RegisterLoader$1.call(this);
  
      // NB deprecate
      this._loader = {};
  
      // internal metadata store
      this[METADATA] = {};
  
      // internal configuration
      this[CONFIG] = {
        baseURL: baseURI,
        paths: {},
  
        packageConfigPaths: [],
        packageConfigKeys: [],
        map: {},
        packages: {},
        depCache: {},
        meta: {},
        bundles: {},
  
        production: false,
  
        transpiler: undefined,
        loadedBundles: {},
  
        // global behaviour flags
        warnings: false,
        pluginFirst: false,
  
        // enable wasm loading and detection when supported
        wasm: false
      };
  
      // make the location of the system.js script accessible (if any)
      this.scriptSrc = scriptSrc;
  
      this._nodeRequire = nodeRequire;
  
      // support the empty module, as a concept
      this.registry.set('@empty', emptyModule);
  
      setProduction.call(this, false, false);
  
      // add module format helpers
      formatHelpers(this);
    }
  
    var envModule;
  
    function setProduction(isProduction, isBuilder) {
      this[CONFIG].production = isProduction;
      this.registry.set('@system-env', envModule = this.newModule({
        browser: isBrowser,
        node: !!this._nodeRequire,
        production: !isBuilder && isProduction,
        dev: isBuilder || !isProduction,
        build: isBuilder,
        'default': true
      }));
    }
  
    SystemJSLoader$1.prototype = Object.create(RegisterLoader$1.prototype);
  
    SystemJSLoader$1.prototype.constructor = SystemJSLoader$1;
  
    // NB deprecate normalize
    SystemJSLoader$1.prototype[SystemJSLoader$1.resolve = RegisterLoader$1.resolve] = SystemJSLoader$1.prototype.normalize = normalize;
  
    SystemJSLoader$1.prototype.load = function (key, parentKey) {
      warn.call(this[CONFIG], 'System.load is deprecated.');
      return this.import(key, parentKey);
    };
  
    // NB deprecate decanonicalize, normalizeSync
    SystemJSLoader$1.prototype.decanonicalize = SystemJSLoader$1.prototype.normalizeSync = SystemJSLoader$1.prototype.resolveSync = normalizeSync;
  
    SystemJSLoader$1.prototype[SystemJSLoader$1.instantiate = RegisterLoader$1.instantiate] = instantiate$1;
  
    SystemJSLoader$1.prototype.config = setConfig;
    SystemJSLoader$1.prototype.getConfig = getConfig;
  
    SystemJSLoader$1.prototype.global = envGlobal;
  
    SystemJSLoader$1.prototype.import = function () {
      var step1 = RegisterLoader$1.prototype.import.apply(this, arguments);
      return step1
        .then(function (m) {
          return '__useDefault' in m ? m.__useDefault : m;
        })
        .catch(function (error) {
          console.error(error);
        });;
    };
  
    var configNames = ['baseURL', 'map', 'paths', 'packages', 'packageConfigPaths', 'depCache', 'meta', 'bundles', 'transpiler', 'warnings', 'pluginFirst', 'production', 'wasm'];
  
    var hasProxy = typeof Proxy !== 'undefined';
    for (var i = 0; i < configNames.length; i++)(function (configName) {
      Object.defineProperty(SystemJSLoader$1.prototype, configName, {
        get: function () {
          var cfg = getConfigItem(this[CONFIG], configName);
  
          if (hasProxy && typeof cfg === 'object')
            cfg = new Proxy(cfg, {
              set: function (target, option) {
                throw new Error('Cannot set SystemJS.' + configName + '["' + option + '"] directly. Use SystemJS.config({ ' + configName + ': { "' + option + '": ... } }) rather.');
              }
            });
  
          //if (typeof cfg === 'object')
          //  warn.call(this[CONFIG], 'Referencing `SystemJS.' + configName + '` is deprecated. Use the config getter `SystemJS.getConfig(\'' + configName + '\')`');
          return cfg;
        },
        set: function (name) {
          throw new Error('Setting `SystemJS.' + configName + '` directly is no longer supported. Use `SystemJS.config({ ' + configName + ': ... })`.');
        }
      });
    })(configNames[i]);
  
    /*
     * Backwards-compatible registry API, to be deprecated
     */
    function registryWarn(loader, method) {
      warn.call(loader[CONFIG], 'SystemJS.' + method + ' is deprecated for SystemJS.registry.' + method);
    }
    SystemJSLoader$1.prototype.delete = function (key) {
      registryWarn(this, 'delete');
      return this.registry.delete(key);
    };
    SystemJSLoader$1.prototype.get = function (key) {
      registryWarn(this, 'get');
      return this.registry.get(key);
    };
    SystemJSLoader$1.prototype.has = function (key) {
      registryWarn(this, 'has');
      return this.registry.has(key);
    };
    SystemJSLoader$1.prototype.set = function (key, module) {
      registryWarn(this, 'set');
      return this.registry.set(key, module);
    };
    SystemJSLoader$1.prototype.newModule = function (bindings) {
      return new ModuleNamespace(bindings);
    };
    SystemJSLoader$1.prototype.isModule = isModule;
  
    // ensure System.register and System.registerDynamic decanonicalize
    SystemJSLoader$1.prototype.register = function (key, deps, declare) {
      if (typeof key === 'string')
        key = decanonicalize.call(this, this[CONFIG], key);
      return RegisterLoader$1.prototype.register.call(this, key, deps, declare);
    };
  
    SystemJSLoader$1.prototype.registerDynamic = function (key, deps, executingRequire, execute) {
      if (typeof key === 'string')
        key = decanonicalize.call(this, this[CONFIG], key);
      return RegisterLoader$1.prototype.registerDynamic.call(this, key, deps, executingRequire, execute);
    };
  
    SystemJSLoader$1.prototype.version = "0.20.19 Dev";
  
    var System = new SystemJSLoader$1();
  
    // only set the global System on the global in browsers
    if (isBrowser || isWorker)
      envGlobal.SystemJS = envGlobal.System = System;
  
    if (typeof module !== 'undefined' && module.exports)
      module.exports = System;
  
  }());
  //# sourceMappingURL=system.src.js.map